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| 8226b?mcu wireless?06/09 zigbit? 2.4 ghz wireless modules ............... ................. .............. .............. .............. .............. .............. .............. atzb-24-a2/b0 datasheet
zigbit? 2.4 ghz wireless modules 1-2 8226b?mcu wireless?06/09 zigbit? 2.4 ghz wireless modules i 8226b?mcu wireless?06/09 table of contents section 1 1.1 summary..................................................................................................................... ....... 1-1 1.2 applications................................................................................................................ ........ 1-1 1.3 key features................................................................................................................ ...... 1-2 1.4 benefits .................................................................................................................... .......... 1-2 1.5 abbreviations and acronyms ............................................................................................. 1-2 1.6 related documents ........................................................................................................... 1-4 section 2 2.1 overview .................................................................................................................... ........ 2-5 section 3 3.1 electrical characteristics.................................................................................................. .. 3-7 3.1.1 absolute maximum ratings ................................................................................. 3-7 3.1.2 test conditions.................................................................................................... 3-7 3.1.3 rf characteristics ............................................................................................... 3-8 3.1.4 atmega1281v microcontroller characteristics ................................................... 3-8 3.1.5 module interfaces characteristics ........................................................................ 3-8 3.2 physical/environmental characteristics and outline ......................................................... 3-9 3.3 pin configuration ........................................................................................................... .. 3-10 3.4 mounting information ....................................................................................................... 3 -14 3.5 sample antenna reference designs............................................................................... 3-15 3.5.1 general recommendations ................................................................................ 3-16 3.6 antenna specifications ..................................................................................................... 3 -17 3.6.1 atzb-24-b0....................................................................................................... 3-17 3.6.2 atzb-24-a2....................................................................................................... 3-19 section 4 4.1 united states (fcc).................................................................................................. 4-21 4.2 canada (ic) ................................................................................................................. .. 4-22 4.3 european union (etsi).......... ................ ................ ................ ................ ............. ...... 4-23 4.4 approved antenna list..................................................................................................... 4- 23 section 5 5.1 ordering information ........................................................................................................ 5-24 zigbit? 2.4 ghz wireless modules 1-1 8226b?mcu wireless?06/09 section 1 introduction 1.1 summary zigbit ? is an ultra-compact, low-power, high- sensitivity 2.4 ghz ieee 802.15.4/zigbee ? oem module 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-consum- ing rf development, and shortens time to market for a wide range of wireless applications. two different versions of 2.4 ghz zigbit modules are available: atzb-24-b0 module with balanced rf port for applications where the benefits of pcb or external antenna can be utilized and atzb-24-a2 module with dual chip antenna satisfying the needs of applications requiring integrated, small-footprint antenna design. 1.2 applications zigbit module is compatible with robust ieee 802. 15.4/zigbee stack that supports a self-healing, self- organizing mesh network, while optimizing network traffic and minimizing power consumption. atmel offers two stack configurations: bitcloud and seri alnet. bitcloud is a zigbee pro certified software development platform supporting reliable, scalable, and secure wireless applications running on atmel?s zigbit modules. serialnet allows programming of the module via serial at-command interface. the applications include, but are not limited to: ? building automation & monitoring ? lighting controls ? wireless smoke and co detectors ? structural integrity monitoring ? hvac monitoring & control ? inventory management ? environmental monitoring ? security ? water metering ? industrial monitoring ? machinery condition and performance monitoring ? monitoring of plant system parameters such as te mperature, pressure, flow , tank level, humidity, vibration, etc. ? automated meter reading (amr) introduction zigbit? 2.4 ghz wireless modules 1-2 8226b?mcu wireless?06/09 1.3 key features ? ultra compact size (24 x 13.5 x 2.0 mm for atzb-24-a2 module and 18.8 x 13.5 x 2.0 mm for atzb-24-b0 module) ? innovative (patent-pending) balanced dual chip antenna desi gn with antenna gain of approximately 0 dbi (for atzb-24-a2 version) ? high rx sensitivity (-101 dbm) ? outperforming link budget (104 db) ? up to 3 dbm output power ? very low power consumption: ? < 6 a in sleep mode, ? 19 ma in rx mode, ? 18 ma in tx mode ? ample memory resources (128k bytes of fl ash memory, 8k bytes ram, 4k bytes eeprom) ? wide range of interfaces (b oth analog and digital): ? 9 spare gpio, 2 spare irq lines ? 4 adc lines + 1 line for supply voltage co ntrol (up to 9 lines with jtag disabled) ? uart with cts/rts control ?usart ?i 2 c ? spi ?1-wire ? up to 30 lines configurable as gpio ? capability to write own mac address into the eeprom ? optional antenna reference designs ? ieee 802.15.4 compliant transceiver ? 2.4 ghz ism band ? bitcloud embedded software, including serial bootloader and at command set 1.4 benefits ? small physical footprint and low profile for op timum fit in even the smallest of devices ? best-in-class rf link range ? extended battery life ? easy prototyping with 2-layer pcb ? ample 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 1.5 abbreviations and acronyms adc analog-to -digital converter api application programming interface dc direct current introduction zigbit? 2.4 ghz wireless modules 1-3 8226b?mcu wireless?06/09 dtr data terminal ready dip duap in-line package eeprom electrically erasable programmable read-only memory esd electrostatic discharge gpio general purpose input/output hal hardware abstraction layer hvac heating, ventilating and air conditioning hw hardware i 2 c inter-integrated circuit ieee institute of electrical and electrionics engineers irq interrupt request ism industrial, scientific and medical radio band jtag digital interface for debuggi ng of embedded device, also known as ieee 1149.1 standard interface mac medium access control layer mcu microcontroller unit. in this docum ent it also means the processor, which is the core of zigbit module nwk network layer oem original equipment manufacturer ota over-the-air upgrade pcb printed circuit board per package error ratio phy physical layer ram random access memory rf radio frequency rts/cts request to send/ clear to send rx receiver sma surface mount assembly spi serial peripheral interface sw software ttm time to market tx transmitter uart universal asynchronous receiver/transmitter usart universal synchronous/asynchronous receiver/transmitter usb universal serial bus zdk zigbit development kit zigbee, zigbee pro wireless networking standards targeted at low-power applications 802.15.4 the ieee 802.15.4-2003 sta ndard applicable to low-rate wireless personal area network introduction zigbit? 2.4 ghz wireless modules 1-4 8226b?mcu wireless?06/09 1.6 related documents [1] atmel 8-bit avr microcontroller with 64k/128k/256k bytes in-system programmable flash. 2549f avr 04/06 [2] atmel low-power transceiver for zigbee applications. at86rf230 datasheet. doc5131.pdf [3] ieee std 802.15.4-2003 ieee standard for information technology - part 15.4 wireless medium access control (mac) and physical layer (phy) s pecifications for low-rat e wireless personal area networks (lr-wpans) [4] zigbee specification. zigbee document 053474r17, october 19, 2007 [5] bitcloud? ieee 802.15.4/zigbe e software. avr2050: bitcloud us er guide. atme ls doc8199.pdf [6] zigbit? development kit. user's guide. meshnetics doc. s-zdk-451 - tbd zigbit? 2.4 ghz wireless modules 2-5 8226b?mcu wireless?06/09 section 2 zigbit ? module overview 2.1 overview zigbit is a low-power, high-sensitivity ieee 802.15. 4/ zigbee-compliant oem module. this multi-func- tional device occupies less than a square inch of spac e, which is comparable to a typical size of a single chip. based on a solid combination of atmel?s late st mcu wireless hardware platform [1], the zigbit offers superior radio performance, ultra-low power consumption, and exceptional ease of integration. figure 2-1. atzb-24-b0 block diagram figure 2-2. atzb-24-a2 block diagram atmega1281 at86rf230 rf transceiver v cc (1.8 - 3.6v) rf i/o gpio spi bus irq uart usart/spi i2c jtag analog atmega1281 at86rf230 rf transceiver v cc (1.8 - 3.6v) gpio spi bus irq uart usart/spi i2c jtag analog chip antenna zigbit ? module overview zigbit? 2.4 ghz wireless modules 2-6 8226b?mcu wireless?06/09 zigbit modules comply with the fcc (part 15), ic a nd etsi (ce) rules applicable to the devices radiat- ing in uncontrolled environment. for details, see ?agency certifications? on page 4-21 . zigbit fully satisfies the requirements of the ?direc tive 2002/95/ec of the european parliament and the council of 27january 2003 on the restriction of the us e of certain hazardous substances in electrical and electronic equipment? (rohs). atmel provides fully co mpliant product in all regions where the directive is enforced since july 1, 2006. zigbit contains atmel?s atmega1281v microcontroller [1] and at86rf230 rf transceiver [2]. the mod- ule features 128 kbytes flash memory and 8 kbytes ram. the zigbit already contains a complete rf/mcu-related design with all the necessary passive compo- nents included. the module can be easily mounted on a simple 2-layer pcb. compared to a custom rf/mcu design, a module-based solution offers considerable savings in development time and nre cost per unit during the design, prototyping, a nd mass production phases of product development. innovative (patent-pending) dual chip antenna design in atzb-24-a2 module eliminates the balun and achieves good performance over 2.4 ghz frequency band. to jumpstart evaluation and development, atmel also offers a complete set of evaluation and develop- ment tools. the zigbit development kit [6] (a tzb-dk-24) comes with everything you need to create custom applications featuring zigbit module. the kit features meshbean development boards with an easy-to-access extension connector for attach- ing third party sensors and other peripherals, and a jtag connector for easy application uploading and debugging. the kit also includes reference applications to sp eed up application development, source code for hard- ware interface layer and reference drivers for the all the module interfaces, intuitive development environment from atmel, and comprehensive set of application notes and product documentation. zigbit modules comes bundled with bitcloud, a 2 nd generation embedded software stack from atmel. bitcloud is fully compliant with zigbee pro and zi gbee 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 pai red with a host processor driving the module over a serial interface. in the former case, a user appl ication may be used with the bitcloud software allowing customization of embedded applications through bitcloud?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 sensor s can be connected directly to the module, thus expanding the existing set of peripheral interfaces. zigbit? 2.4 ghz wireless modules 3-7 8226b?mcu wireless?06/09 section 3 specifications 3.1 electrical characteristics 3.1.1 absolute maximum ratings notes: 1. absolute maximum ratings are the values beyond which damage to the device may occur. under no circumstances must the absolute maximum ratings gi ven 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 specific ation, is not implied. ex posure to absolute maximum rating conditions for extended periods may affect device reliability. 2. attention! zigbit is an esd-sensitive device. precauti on should be taken when handling the device in order to prevent permanent damage. 3.1.2 test conditions , note: 1. the parameters are measured under the following conditions: a) bitcloud software is running at 4 mhz clock rate, dtr line management is turned off b) all interfaces are set to the default state (see pin assignment table) c) output tx power is 0 dbm d) jtag is not connected table 3-1. absolute maximum ratings (1)(2) parameters min max voltage on any pin, except reset wi th respect to ground -0.5v vcc + 0.5v dc current per i/o pin 40 ma dc current dvcc and dgnd pins 200 ma input rf level +10 dbm table 3-2. test conditions (unless otherwise stated), v cc =3v, t amb =25 c parameters range unit supply voltage, v cc 1.8 to 3.6 v current consumption: rx mode 19 ma current consumption: tx mode (1) 18 ma current consumption: radio is turned off, mcu is active 50% of the time (1) 14 ma current consumption: power-save mode (1) 6a specifications zigbit? 2.4 ghz wireless modules 3-8 8226b?mcu wireless?06/09 current consumption actually depends on multiple factors, including but not limited to, the board design and materials, bitcloud settings, network activity , eeprom read/write operations. it also depends on mcu load and/or peripherals used by an application. 3.1.3 rf characteristics 3.1.4 atmega1281v microcontroller characteristics 3.1.5 module interfaces characteristics table 3-3. rf characteristics parameters condition range unit frequency band 2.4000 to 2.4835 ghz numbers of channels 16 channel spacing 5 mhz transmitter output power adjuste d in 16 steps -17 to +3 dbm receiver sensitivity per = 1% on-air data rate 250 kbps tx output/ rx input nominal impedance for balanced output 100 table 3-4. atmega1281v characteristics parameters condition range unit on-chip flash memory size 128k bytes on-chip ram size 8k bytes on-chip eeprom size 4k bytes operation frequency 4 mhz table 3-5. module interfaces characteristics parameters condition range unit uart maximum baud rate 38.4 kbps adc resolution/ conversion time in single conversion mode 10/200 bits/s adc input resistance >1 m adc reference voltage (vref) 1.0 to v cc -3 v adc input voltage 0 - vref v i 2 c maximum clock 222 khz gpio output voltage (high/ low) -10/ 5 ma 2.3/ 0.5 v real time oscillator frequency 32.768 khz specifications zigbit? 2.4 ghz wireless modules 3-9 8226b?mcu wireless?06/09 3.2 physical/environmental c haracteristics and outline note: 1. minor degration of clock stability may occur. figure 3-1. atzb-24-b0 mechanical drawing figure 3-2. atzb-24-a2 mechanical drawing parameters value comments size 18.8 x 13.5 x 2.0 mm atzb-24-b0 24.0 x 13.5 x 2.0 mm atzb-24-a2 weight 1.3g atzb-24-b0 1.5g atzb-24-a2 operating temperature range -20 c to +70 c-40 c to +85 c operational (1) operating relative humidity range no more than 80% specifications zigbit? 2.4 ghz wireless modules 3-10 8226b?mcu wireless?06/09 3.3 pin configuration figure 3-3. atzb-24-b0 pinout figure 3-4. atzb-24-a2 pinout specifications zigbit? 2.4 ghz wireless modules 3-11 8226b?mcu wireless?06/09 table 3-6. pin descriptions connector pin pin name description i/o default state after power on 1 spi_clk reserved for stack operation (4) o 2 spi_miso reserved for stack operation (4) i/o 3 spi_mosi reserved for stack operation (4) i/o 4 gpio0 general purpose digital input/output 0 (2)(3)(4)(7) i/o tri-state 5 gpio1 general purpose digital input/output 1 (2)(3)(4)(7) i/o tri-state 6 gpio2 general purpose digital input/output 2 (2)(3)(4)(7) i/o tri-state 7 osc32k_out 32.768 khz clock output (4)(5) o 8 reset reset input (active low) (4) 9,22,23 dgnd digital ground 10 cpu_clk rf clock output. when module is in active state, 4 mhz signal is present on this line. while module is in the sleeping state, clock generation is also stopped (4) . o 11 i2c_clk i 2 c serial clock output (2)(3)(4)(7) o tri-state 12 i2c_data i 2 c serial data input/output (2)(3)(4)(7) i/o tri-state 13 uart_txd uart receive input (1)(2)(3)(4)(7) i tri-state 14 uart_rxd uart transmit output (1)(2)(3)(4)(7) o tri-state 15 uart_rts rts input (request to send) for uart hardware flow control. active low (2)(3)(4)(7) i tri-state 16 uart_cts cts output (clear to send) for uart hardware flow control. active low (2)(3)(4)(7)(8) o tri-state 17 gpio6 general purpose digital input/output 6 (2)(3)(4)(7) i/o tri-state 18 gpio7 general purpose digital input/output 7 (2)(3)(4)(7) i/o tri-state 19 gpio3 general purpose digital input/output 3 (2)(3)(4)(7) i/o tri-state 20 gpio4 general purpose digital input/output 4 (2)(3)(4)(7) i/o tri-state 21 gpio5 general purpose digital input/output 5 (2)(3)(4)(7) i/o tri-state 24,25 d_vcc digital supply voltage (v cc ) (9) 26 jtag_tms jtag test mode select (2)(3)(4)(6) i 27 jtag_tdi jtag test data input (2)(3)(4)(6) i 28 jtag_tdo jtag test data output (2)(3)(4)(6) o 29 jtag_tck jtag test clock (2)(3)(4)(6) i 30 adc_input_3 adc input channel 3 (2)(3)(7) i tri-state 31 adc_input_2 adc input channel 2 (2)(3)(7) i tri-state 32 adc_input_1 adc input channel 1 (2)(3)(7) i tri-state 33 bat adc input channel 0, used for battery level measurement. this pin equals v cc /3. (2)(3)(7) i tri-state 34 a_vref input/output reference voltage for adc i/o tri-state specifications zigbit? 2.4 ghz wireless modules 3-12 8226b?mcu wireless?06/09 notes: 1. the uart_txd pin is intended for input (i.e. its designation as "txd" implies some complex system containing zigbit as its rf terminal unit), wh ile uart_rxd pin, vice versa, is for output. 2. most of pins can be configured for general purpos e i/o or for some alternate functions as described in details in the atmega1281v datasheet [1]. 3. gpio pins can be programmed eith er for output, or for input with/w ithout pull-up resistors. output pin drivers are strong enough to drive led displays di rectly (refer to figures on pages 387-388, [1]). 4. all digital pins are provided with protection diodes to d_vcc and dgnd 5. it is strongly recommended to avoid assigning an alternate function for osc32k_out pin because it is used by bitcloud. 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 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 bi tcloud software to be general-purpose i/o lines: gpio0, gpio1, gpio2, gpio3, gpio4, gpio5, gpio6, gpio7, gpio8, gpio_1wr, i2c_clk, i2c_data, uart_txd, uart_rxd, uart_rts, uart_cts, adc_input_3, adc_input_2, adc_input_1, bat, uart_dtr, usart0_rxd, usart0_txd, usart0_ext clk, irq_7, irq_6. additionally, four jtag lines can be programmed wit h software as gpio as well, but this requires changing the fuse bits and will disable jtag debugging. 8. with bitcloud, cts pin can be configured to indicate sleep/active condition of the module thus provid- ing mechanism for power management of host proce ssor. if this function is necessary, connection of this pin to external pull-down resistor is reco mmended to prevent the undesirable transients during module reset process. 35 agnd analog ground 36 gpio_1wr 1-wire interface (2)(3)(4)(7) i/o 37 uart_dtr dtr input (data terminal ready) for uart. active low (2)(3)(4)(7) i tri-state 38 usart0_rxd usart/spi receive pin (2)(3)(4)(7) i tri-state 39 usart0_txd usart /spi transmit pin (2)(3)(4)(7) o tri-state 40 usart0_extclk usart/spi external clock (2)(3)(4)(7)(11) i/o tri-state 41 gpio8 general purpose digit al input/output i/o tri-state 42 irq_7 digital input interrupt request 7 (2)(3)(4)(7) i tri-state 43 irq_6 digital input interrupt request 6 (2)(3)(4)(7) i tri-state 44,46,48 rf gnd rf analog ground (2)(3)(4)(7) 45 rfp_io differential rf input/output (10) i/o 47 rfn_io differential rf input/output (10) i/o table 3-6. pin descriptions connector pin pin name description i/o default state after power on specifications zigbit? 2.4 ghz wireless modules 3-13 8226b?mcu wireless?06/09 9. using ferrite bead and 1 f capacitor located cl osely to the power supply pin is recommended, as shown below. 10. pins 44 through 48 are not designed for the atzb-24-a2 module. note these pins are used in atzb-24-b0, see them in antenna schematics below. 11. in spi mode, usart0_extclk is output. in usart mode, this pin can be configured as either input or output pin. for atzb-24-b0 combined with pcb antenna for atzb-24-b0 combined with external antenna specifications zigbit? 2.4 ghz wireless modules 3-14 8226b?mcu wireless?06/09 3.4 mounting information the below diagrams show the pcb layout recommende d 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. figure 3-5. atzb-24-b0 pcb recommended layout, top view figure 3-6. atzb-24-a2 pcb recommended layout, top view specifications zigbit? 2.4 ghz wireless modules 3-15 8226b?mcu wireless?06/09 3.5 sample antenna reference designs this section presents pcb designs which comb ine zigbit with different antennas: pcb onboard antenna, external antenna and dual chip antenna . these antenna reference designs are recommended for successful design-in. figure 3-7. pcb layout: symmetric dipole antenna recommended for atzb-24-b0 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 specifications zigbit? 2.4 ghz wireless modules 3-16 8226b?mcu wireless?06/09 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. 3.5.1 general recommendations �? metal enclosure should not be used. using low profile enclosure might also affect antenna tuning. �? 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. �? zigbit module should not be placed next to consum er electronics which might interfere with zigbit's rf frequency band. specifications zigbit? 2.4 ghz wireless modules 3-17 8226b?mcu wireless?06/09 3.6 antenna specifications 3.6.1 atzb-24-b0 figure 3-8. symmetric dipole antenna pattern (horizontal and vertical plane) for atzb-24-b0 atzb-24-b0 atzb-24-b0: atzb-24-b0: specifications zigbit? 2.4 ghz wireless modules 3-18 8226b?mcu wireless?06/09 figure 3-9. pcb layout with 50 ohm external antenna recommended for atzb-24-b0 in case the external unbalanced 50 ohm antenna is required, it can be easily interfaced to atzb-24-b0 module by using 2:1 balun as shown above. the reference design in figure 3-10 demonstrates how to use sma connector. figure 3-10. sma connectors atzb-24-b0 specifications zigbit? 2.4 ghz wireless modules 3-19 8226b?mcu wireless?06/09 3.6.2 atzb-24-a2 figure 3-11. symmetric dipole antenna pattern (horizontal and vertical plane) for atzb-24-a2 note: the antenna patterns presented above were observed using pcb enhanced with legs made of original nylon. atzb-24-a2 atzb-24-a2: atzb-24-a2: specifications zigbit? 2.4 ghz wireless modules 3-20 8226b?mcu wireless?06/09 figure 3-12. pcb layout with dual chip antenna module recommended for atzb-24-a2 normally, chip antennas are more tolerant of the board or enclosure materials in zigbit's neighborhood as well. however, general recommendations given above for the pcb antenna design still apply. the board design should prevent propagation of micr owave field inside the board material. electromag- netic 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 fo r installation on fr-4 board 1.6 mm thick, the antenna performance may only be guaranteed for the particular board type and thickness. zigbit? 2.4 ghz wireless modules 4-21 8226b?mcu wireless?06/09 section 4 agency certifications 4.1 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 visi- ble when the module is installed inside another device, then the outside of the device into which the module is installed must also display a label referring to the enclosed module. this exterior label can use wording such as the following: example of label required for oem pr oduct containing atzb-24-a2 module example of label required for oem pr oduct containing atzb-24-b0 module any similar wording that expresses the same meaning may be used. 2. to be used with the atzb-24-b0 module, the external antennas have been tested and approved which are specified in here below. the atzb-24-b0 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 in cludes a clearly visible label on the outside of the final product enclosure 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 follow- ing two conditions: (1) this device may not cause ha rmful 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. contains fcc id : u6tzigbit-a2 the enclosed device complies with part 15 of the fcc rules. operation is subject to the following two conditions: (i.) this device may not cause harmful interference and (i i.) this device must accept any interference received, including interference that may cause undesired operation. contains fcc id : u6tzigbit-b0 the enclosed device complies with part 15 of the fcc rules. operation is subject to the following two conditions: (i.) this device may not cause harmful interference and (i i.) this device must accept any interference received, including interference that may cause undesired operation. agency certifications zigbit? 2.4 ghz wireless modules 4-22 8226b?mcu wireless?06/09 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 expo- sure 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 provide reasonable protec- tion 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. oper- ation of this equipment in a residential area is likel y to cause harmful interference in which case the user will be required to correct the interference at his own ex pense (fcc se ction 15.105). 4.2 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 atzb-24-a2 module: for atzb-24-b0 module: 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 re quirements important: operation is subject to the following two condi tions: (1) this device may not 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. certification number: manufacturer's name, trad e name or brand name: model name: ic: 7036a-zigbita2 zigbit atzb-24-a2 certification number: manufacturer's name, trad e name or brand name: model name: ic: 7036a-zigbitb0 zigbit atzb-24-b0 agency certifications zigbit? 2.4 ghz wireless modules 4-23 8226b?mcu wireless?06/09 4.3 european union (etsi) the atzb-24-a2 and atzb-24-b0 modules has been certified for use in european union countries. if the atzb-24-a2 and atzb-24-b0 modules are in corporated into a product, the manufacturer must ensure compliance of the final product to the european harmonized emc and low-voltage/safety stan- dards. a declaration of conformity must be issu ed for each of these standards and kept on file as described in annex ii of the r&tte directive. furthermore, the manufacturer must maintain a copy of the atzb-24-a2 and atzb-24-b0 modules doc- umentation 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 specifica- tions are exceeded in the final product, 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: �? if the ce marking is reduced or enlarged, the proportions given in the above graduated drawing must be respected. �? the 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. 4.4 approved antenna list atzb-24-a2 module works with integrated dual chip antenna. the design of the antenna is fully compli- ant with all the aforementioned regulation. atzb-24-b0 module has been tested and approved for use with the antennas listed in the table below. atzb-24-0b module may be integrated with other custom design antennas which oem installer must authorize with respective regulatory agencies. table 4-1. approved antenna specifications part number manufacture and descript ion gain [dbi] minimum separation [cm] 2010b48-01 antenova titanis, swivel antenna (1/4 wave antenna) with sma connecto r, frequency range 2.4 - 2.5 ghz 2.2 20 17010.10 wimo, swivel antenna (1/2 wave antenna) with sma connector, frequency range 2.35 - 2.5 ghz 2.1 20 zigbit? 2.4 ghz wireless modules 5-24 8226b?mcu wireless?06/09 section 5 ordering information 5.1 ordering information note: tape&reel quantity: 200 part number description atzb-24-b0r 2.4 ghz ieee802.15.4/zigbee oem module w/ balanced rf port atzb-24-a2r 2.4 ghz ieee802.15.4/zigb ee oem module with dual chip antenna 8226b?mcu wireless?06/09 ? 2009 atmel corporation. all rights reserved. atmel ? , atmel logo and combinations thereof, and others are registered trademarks or trade- marks of atmel corporation or its subsidiaries. other terms and product names may be trademarks of others. headquarters international atmel corporation 2325 orchard parkway san jose, ca 95131 usa tel: 1(408) 441-0311 fax: 1(408) 487-2600 atmel asia unit 1-5 & 16, 19/f bea tower, millennium city 5 418 kwun tong road kwun tong, kowloon hong kong tel: (852) 2245-6100 fax: (852) 2722-1369 atmel europe le krebs 8, rue jean-pierre timbaud bp 309 78054 saint-quentin-en- yvelines cedex france tel: (33) 1-30-60-70-00 fax: (33) 1-30-60-71-11 atmel japan 9f, tonetsu shinkawa bldg. 1-24-8 shinkawa chuo-ku, tokyo 104-0033 japan tel: (81) 3-3523-3551 fax: (81) 3-3523-7581 product contact web site www.atmel.com technical support avr@atmel.com sales contact www.atmel.com/contacts literature requests www.atmel.com/literature disclaimer: the information in this document is provided in connection with atmel products. no license, express or implied, by estoppel or otherwise, to any intellectual property right is granted by this document or in connection with the sale of atmel products. except as set forth in atmel?s terms and condi- tions of sale located on atmel?s web site, atmel assumes no li ability whatsoever and disclaims any express, implied or statutor y warranty relating to its products including, but not limited to, the implied warranty of merchantability, fitness for a particu lar purpose, or non-infringement. in no event shall atmel be liable for any direct, indirect, consequential, punitive, special or i nciden- tal damages (including, without limitation, damages for loss of profits, business interruption, or loss of information) arising out of the use or inability to use this document, even if atme l has been advised of the possibility of such damages. atmel makes no representations or warranties with respect to the accuracy or comp leteness of the contents of this document and reserves the rig ht to make changes to specifications and product descriptions at any time without notice. atmel does not make any commitment to update the information contained her ein. unless specifically provided otherwise, atmel products are not suitable for, and shall not be used in, automotive applications. atmel?s products are not int ended, authorized, or warranted for use as components in applications in tended to support or sustain life. |
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