ZIGBIT 900MHZ WIRELESS MODULES ATZB-X0-256-4-0-CN DATASHEET Features * * * * * Compact size (38.5 x 20.0mm) * Ample memory resources (256KB In-System, Self-Programmable Flash memory, 4KB EEPROM, 16KB SRAM) * High RX sensitivity (-103dBm) Outperforming link budget (up to +112dB) Up to +9.0dBm output power Very low power consumption: * 8.7mA in RX mode (1) * 34.8mA in TX mode (1) * 0.6A in sleep mode (2) Wide range of interfaces (both analog and digital) * * * * * * * * Notes: 4-wire SPI, TWI ISP, JTAG Two analog comparator input UART, USART Timer, PWM Four ADC lines External Clock Input, Internal Clock Output Up to 32 lines configurable as GPIO * * * * * * * * * Preassigned Atmel(R) MAC address that can be used on end product Capability to use MAC address into the internal EEPROM IEEE(R) 802.15.4 compliant Transceiver * * * * Mesh networking capability 900MHz ISM band Serial bootloader High Performance Low Power Atmel AVR(R) XMEGA(R) 8- and 32-bit Microcontroller Rapid design-in with built-in Chip Antenna RF Test point using MS-147 RF connector Small physical footprint and low profile for optimum fit in very small application boards Easy-to-use low cost development kit Single source of support for HW and SW Worldwide license-free operation 1. MCU is in active state with 3V Supply, CPU clock @ 16MHz, RX RPC enabled (for RX current), PHY_TX_PWR=0x0 (for TX current), all digital outputs pulled high. 2. Controller Sleep Mode: SLEEP_MODE_PWR_DOWN. 42268C-WIRELESS-02/2015 Table of Contents 1. Introduction ........................................................................................ 3 1.1 1.2 1.3 1.4 Summary ........................................................................................................... 3 Applications ....................................................................................................... 3 Abbreviations and Acronyms ............................................................................ 3 Related Documents........................................................................................... 4 2. ZigBit Module Overview ..................................................................... 5 2.1 Overview ........................................................................................................... 5 3. Specifications ..................................................................................... 7 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Electrical Characteristics ................................................................................... 7 3.1.1 Absolute Maximum Ratings ................................................................ 7 3.1.2 Power Supply...................................................................................... 7 3.1.3 RF Characteristics .............................................................................. 8 3.1.4 ATxmega256A3U Microcontroller Characteristics .............................. 9 3.1.5 Module Interfaces Characteristics ....................................................... 9 Physical/environmental Characteristics and Outline ......................................... 9 Pin Configuration............................................................................................. 10 Antenna Orientation Recommendation ........................................................... 11 Mounting Information ...................................................................................... 11 Soldering Profile .............................................................................................. 14 Antenna Reference Designs ........................................................................... 14 4. Schematics ...................................................................................... 15 4.1 4.2 Handling Instructions....................................................................................... 20 General Recommendations ............................................................................ 20 5. Persistence Memory ........................................................................ 21 6. Ordering Information ........................................................................ 22 7. Agency Certifications ....................................................................... 23 7.1 7.2 United States (FCC) ........................................................................................ 23 Industry Canada (IC) Compliance Statements ................................................ 23 8. Revision History ............................................................................... 25 ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 2 1. Introduction 1.1 Summary ATZB-X0-256-4-0-CN ZigBit(R) is an ultra-compact and low-power 900MHz IEEE 802.15.4/ZigBee(R) OEM module from Atmel. Based on the innovative mixed-signal hardware platform from Atmel, this module uses the ATxmega256A3U [1] Microcontroller and AT86RF212B [5] 700/800/900MHz ISM band Transceiver. The radio transceiver provides high data rates from 20kb/s up to 1Mb/s, frame handling, outstanding receiver sensitivity and high transmit output power enabling a very robust wireless communication. The module is designed for wireless sensing, monitoring, control, data acquisition applications, to name a few. This ZigBit module eliminates the need for costly and time-consuming RF development, and shortens time-to-market for wireless applications. The module has an MS-147 RF connector that can be used as an RF test port. The built-in chip antenna is designed and tuned for the ZigBit design to enable quick integration of the ZigBit into any application. 1.2 Applications The 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. For detailed software support information, visit http://www.atmel.com/products/wireless. The applications include, but are not limited to: * * * * * * * * 1.3 Building automation and monitoring * Lighting controls * Wireless smoke- and CO-detectors * Structural integrity monitoring HVAC monitoring and control Inventory management Environmental monitoring Security Water metering Industrial monitoring * Machinery condition and performance monitoring * Monitoring of plant system parameters such as temperature, pressure, flow, tank level, humidity, vibration, etc. Automated meter reading (AMR) Abbreviations and Acronyms ADC Analog-to-Digital Converter API Application Programming Interface DC Direct Current DTR Data Terminal Ready EEPROM Electrically Erasable Programmable Read-Only Memory ESD Electrostatic Discharge GPIO General Purpose Input/output HAF High Frequency HVAC Heating, Ventilating, and Air Conditioning ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 3 HW 2 1.4 Hardware IC Inter-Integrated Circuit IEEE Institute of Electrical and Electronics Engineers IRQ Interrupt Request ISM Industrial, Scientific and Medical radio band JTAG Digital interface for debugging of embedded device, also known as IEEE 1149.1 standard interface MAC Medium Access Control layer MCU Microcontroller Unit. In this document it also means the processor, which is the core of a ZigBit module NRE Network layer OEM Original Equipment Manufacturer OTA Over-The-Air upgrade PA Power Amplifier PCB Printed Circuit Board PER Package Error Ratio RAM Random Access Memory RF Radio Frequency RPC Reduced Power Consumption RTS/CTS Request to Send/ Clear to Send RX Receiver SMA Surface Mount Assembly SoC System on Chip 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 ZigBee, ZigBee PRO Wireless networking standards targeted at low-power applications 802.15.4 The IEEE 802.15.4-2003 standard applicable to low-rate wireless Personal Area Network Related Documents [1] ATXMEGA256A3U Datasheet in http://www.atmel.com/devices/ATXMEGA256A3U.aspx?tab=documents. [2] MS-147 Series Interface RF Connector with Switch, 3.9mm High, DC to 6GHz http://www.hirose.co.jp/cataloge_hp/e35801505.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) Specifications for Low-Rate Wireless Personal Area Networks (LR-WPANs). [4] ZigBee Specification. ZigBee Document 053474r17, October 19, 2007. [5] AT86RF212B Datasheet in http://www.atmel.com/devices/AT86RF212B.aspx?tab=documents. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 4 2. ZigBit Module Overview 2.1 Overview The ATZB-X0-256-4-0-CN ZigBit is a compact, low-power, high sensitivity IEEE 802.15.4/ZigBee OEM module. Based on a solid combination of the latest Atmel MCU Wireless hardware platform, 900MHz ISM band transceiver and Atmel Studio Wireless Composer - the ZigBit offers an unmatched combination of superior radio performance, ultra-low power consumption and exceptional ease of integration. Figure 2-1. ATZB-X0-256-4-0-CN User Interface Diagram This ZigBit module contains the Atmel ATxmegaA256A3U Microcontroller and AT86RF212B 900MHz ISM band Transceiver for ZigBee and IEEE 802.15.4 [3]. The module features 256KB In-System Self-Programmable flash memory, 16KB SRAM, and 4KB EEPROM. The compact all-in-one board design of MCU and Radio Transceiver with very minimal components on the RF path to Antenna dramatically improves the ZigBit's compact size, range performance on signal transmission and increases its sensitivity. This ensures stable connectivity within a larger coverage area, and helps develop applications on smaller footprint. The MS-147 connector [2] can be used as an RF Test port. ZigBit Module contains a complete RF/MCU design with all the necessary passive components included. The module can be easily mounted on a simple 2-layer PCB with a minimum of required external connection. The ZigBit Module Evaluation kit containing the ZigBit Extension board for the Atmel Xplained PRO HW Evaluation platform can be used to develop FW using the Atmel Studio and evaluate using the Wireless Composer. Compared to a custom RF/MCU solution, a module-based solution offers considerable savings in development time and NRE cost per unit during the HW/FW design, prototyping, and mass production phases of product development. All ZigBits are preloaded with a Bootloader when they are sold as Modules, either in Single units or T&R. Depending on end-user design requirements, the 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. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 5 The MAC stack running on the host processor can then control data transmission and manages module peripherals. Thus very minimal firmware customization is required for successful module design-in. Third-party sensors can then be connected directly to the module, thus expanding the existing set of peripheral interfaces. Every ZigBit Module come pre loaded with Atmel assigned 64-bit MAC address stored in the signature bytes of the device. This unique IEEE MAC address can be used as the MAC address of the end product, so there is no need to buy a MAC address separately for the product using the ZigBit. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 6 3. Specifications 3.1 Electrical Characteristics 3.1.1 Absolute Maximum Ratings Table 3-1. Notes: 3.1.2 Absolute Maximum Ratings (1)(2) Parameter Minimum Maximum Voltage on any pin, except RESET with respect to ground -0.3V 3.6V (VDD max) Input RF level +10dBm Current into VCC pins 200mA 1. Absolute Maximum Ratings are the values beyond which damage to the device may occur. Under no 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. 2. Attention! ZigBit is an ESD-sensitive device. Precaution should be taken when handling the device in order to prevent permanent damage. Power Supply Table 3-2. Test Conditions (unless otherwise stated), Vcc = 3V, Tamb = 25 C Parameter Range Unit Supply voltage, VDD 1.8 to 3.6 V Active Current consumption: RX mode + Max sensitivity 14.5 mA 13.9 mA 9.3 mA 8.7 mA 34.8 mA 6.1 mA 740 A 0.6 A Active Current consumption: RX mode + Least sensitivity Active Current consumption: RX mode + Max sensitivity, MCU Sleep (2) Active Current consumption: RX mode + Least sensitivity, MCU Sleep Active Current consumption: TX mode (1) - BUSY_TX - Transmit state Current consumption: TRX_OFF, MCU Active Current consumption: TRX_OFF, MCU Sleep (2) Sleep Current consumption: TRX Sleep, MCU Sleep (2) (2) Note 1: Output TX power (when measuring consumption in TX mode) is +9dBm. Note 2: a) All interfaces are set to the default state (see Table 3-8 ATZB-X0-256-4-0-CN Pinout Description). b) JTAG is not connected. c) CPU Clock configured when doing this measurement - 16MHz for all modes except Power save and Power down modes. Current consumption depends on multiple factors, including but not limited to, the board design and materials, Protocol settings, network activity, EEPROM read/write operations. It also depends on MCU load and/or peripherals used by an application. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 7 3.1.3 RF Characteristics Table 3-3. RF Characteristics (3) Parameter Condition Frequency band - FCC and Industry Canada (2) Range Unit 902 - 928 MHz Numbers of channels (FCC and Industry Canada) 10 Channel spacing 2 MHz Transmitter output power Adjusted in 36 steps -25 to +11 dBm Receiver sensitivity PER = 1% -103 dBm 20, up to 1000 Kbps 50 On-air data rate TX output/ RX input nominal impedance Range Notes: (1) For balanced Open field, LoS, Elevated 1120 m 1. Range measured is Line of Sight at 10ft elevation from Ground at different combinations of orientation of transmitter and receiver, with special conditions were there is minimal or no RF interference from other sources. For best case orientation of the ZigBits to achieve maximum range, refer to Section 3.4. 2. Appropriate FW (Register selection) must be used for operating this ZigBit in North America. 3. For detailed characteristics, refer to [2]. Table 3-4. TX Power Settings PHY_TX_PWR 3:0 Register Value Power Register Setting [dBm] Output Power [dBm] (typical values at RF connector) C0 11 8.59 C1 10 8.14 80 9 7.43 82 8 5.85 83 7 4.97 84 6 4.1 40 5 3.58 86 4 2.12 00 3 1.4 01 2 0.42 02 1 -0.93 03 0 -2.09 04 -1 -3.16 27 -2 -4.29 91 -6 -7.86 0D -10 -12.27 15 -18 -19.51 1D -25 -26.82 ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 8 3.1.4 ATxmega256A3U Microcontroller Characteristics Table 3-5. 3.1.5 ATxmega256A3U Characteristics Parameter Range Unit On-chip flash memory size 256K Bytes On-chip RAM size 16K Bytes On-chip EEPROM size 4K Bytes Operation frequency 16 MHz Module Interfaces Characteristics Table 3-6. Module Interfaces Characteristics Parameters (1) Condition UART maximum baud rate Range Unit 115.2 Kbps ADC conversion time (latency) (RES+2)/2+(GAIN !=0) RES (Resolution) = 8 or 12 5-8 ClkADC cycles ADC input resistance Static load resistor of input signal 4.0 k ADC reference voltage (VREF) 1.0 to AVCC - 0.6 V ADC input voltage 0 - AVDD V TWI maximum clock 400 kHz GPIO High level input voltage VCC = 2.7-3.6V 2 to VCC+0.3 V GPIO Low level input voltage VCC = 2.7-3.6V -0.3 to 0.3 VDD V GPIO High level output voltage VOH VCC = 3.0-3.6V 2.4 to 0.94VCC V GPIO Low level output voltage VOL VCC = 3.0-3.6V 0.05VCC typ. Max. 0.4 V 32.768 kHz Real-time oscillator frequency Note 1: For detailed characteristics, refer to [1]. 3.2 Physical/environmental Characteristics and Outline Table 3-7. Physical Characteristics Parameters Value Comments Size 38.5 x 20.0mm Operating temperature range -40C to +85C -40C to +85C operational ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 9 3.3 Pin Configuration Table 3-8. Pin Out ATZB-X0-256-4-0-CN Pinout Description Pin Descriptions Function 1 AVSS Analog Ground 2 AVSS Analog Ground 3 DEVDD Digital Power input pin 4 DEVDD Digital Power input pin 5 RSET/PDI_CLOCK RESET 6 PD4/SS SPI 7 PD5/MOSI/XCK1 SPI 8 PD6/MISO/RXD1/D- SPI 9 PD7/SCK/TXD1/D+ SPI 10 PA5 GPIO / ADC / Analog COMP+ 11 PA4 GPIO/ADC/Analog Comp- 12 DVSS Digital Ground 13 PD2/SYNC/ASYNC/OC0C/ UART 14 PD3/SYNC/TXD0/OC0D UART 15 PD1/SCL/INT/OC0B USART 16 PDI_DATA PWM/TC 17 PA6 GPIO/ADC 18 PA7 GPIO/ADC 19 PB3 GPIO/ADC/DAC1 20 PB2 GPIO/ADC/DAC/intwkup 21 PF1/OC0B/INT/XCK0 INT/PWM/GPIO 22 PF2/OC0C/INT/RXD0 INT/PWM/GPIO 23 PF3/OC0D/INT/TXD0 INT/PWM/GPIO 24 PB0/IAREF/INT ADC ref 25 PA0/ADC0/INT ADC/ GPIO 26 PA1/ADC1/INT ADC/ GPIO 27 PA2/ADC2/INT ADC/ GPIO 28 PA3/ADC3/INT ADC/ GPIO 29 DVSS Digital Ground 30 PB6/TCK/INT JTAG 31 PB4/TMS/INT JTAG 32 PB7/TDO/INT JTAG 33 PB5/TDI/INT JTAG 34 PE3/TXD GPIO/output counter 35 PE2/RXD Wakeup INT 36 PE1/XCK TWI/INT/GPIO 37 PE0 TWI/INT/GPIO 38 PE5/OC1B/INT GPIO/TC 39 PE4/SYNC/OC1A Master Clock out put ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 10 Pin Out Pin Descriptions Function 40 PF0 GPIO/Timer 41 DVSS Digital Ground 42 DVSS Digital Ground NOTE: 3.4 TXD, RXD of UART are crossed inside ZigBit Module. External UART devices connecting to ZigBit Module should follow straight connection for UART. UART_TXD_external_device <-> UART_TXD UART_RXD_external_device <-> UART_RXD Antenna Orientation Recommendation The Antenna in this module is designed to provide the best possible LoS range in the direction indicated in this illustration. 3.5 Mounting Information Figure 3-1 shows the PCB layout recommended for a ZigBit module. Neither via-holes nor wires are allowed on the PCB upper layer in the area occupied by the module. As a critical requirement, RF_GND pins should be grounded via several via-holes to be located right next to the pins thus minimizing inductance and preventing both mismatch and losses. Figure 3-1. ATZB-X0-256-4-0-CN Dimensions ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 11 Figure 3-2. ATZB-X0-256-4-0-CN Pinout Figure 3-3. ATZB-X0-256-4-0-CN Foot Print Dimensions ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 12 Figure 3-4. ATZB-X0-256-4-0-CN Mounting Information (preferred placement) Figure 3-5. ATZB-X0-256-4-0-CN Mounting Information (alternative placement) The ZigBit's location and orientation on the carrier board is illustrated in the above PCB Land pattern and Mounting information drawing. The Recommended placement of ZigBit on Carrier Board needs to be accurately followed to ensure performance on the end application. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 13 3.6 Soldering Profile The J-STD-020C-compliant soldering profile is recommended according to Table 3-9. Table 3-9. (1) Profile Feature Green Package Average ramp-up rate (217C to peak) 3C/s max. Preheat temperature 175C 25C 180s max. Temperature maintained above 217C 60s to 150s Time within 5C of actual peak temperature 20s to 40s Peak temperature range 260C Ramp-down rate 6C/s max. Time within 25C to peak temperature 8 minutes Note: 3.7 Soldering profile 1. The package is backward compatible with PB/Sn soldering profile. Antenna Reference Designs Multiple factors affect proper antenna match, hence, affecting the antenna 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. Following guidelines need to be followed when designing the base board for the ZigBit. General Recommendations: * * * Metal enclosure should not be used. Using low profile enclosure might also affect antenna tuning. * ZigBit module should not be placed next to consumer electronics which might interfere with ZigBit's RF band frequency Placing high profile components next to antenna should be avoided Having holes/vias punched around the periphery of the board eliminates parasitic radiation from the board edges also distorting antenna pattern The board design 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/vias must be placed around the board's edges. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 14 4. Schematics The following schematic drawings for the ATZB-X0-256-4-0-CN are in the following order: * * * * Top level schematics Connector schematics ATxmega256A3U schematics AT86RF212B schematics ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 15 D C B A 1 1 =LJ%LW;PHJD6XE*+]ERDUG3&% 3&% 2 *3,2$'& 63,,17(5)$&( 7:, 7:, Product number/revision Serial number /DEHO=LJ%LW6KLHOG /$%(/ ;PHJDB%B&RQQHFWRU6FK'RF 3',*3,2 ;0(*$ 4 a ;PHJDB%B0&86FK'RF 3',*3,2 8$5786$57 -7$* -7$* ,173:0*3,2 ,173:0*3,2 8$5786$57 4 *3,2$'&$1$/2*&203 *3,2$'& 63,,17(5)$&( *3,2$'&'$& 3 3 *3,2$'&'$& *3,2$'&$1$/2*&203 &211(&725 2 5 B 75;B,) 5 75;B,) 6 6 08-Jul-14 7 Xmega_212B_Toplevel.SchDoc TITLE: ATZB-X0-256-4-0-CN Document number: * Date: * MSK Chennai INDIA OJS ATMEL Chennai ;PHJDB%B5)6FK'RF 5) 7 4:02:23 PM 1 Revision: 5 PAGE: 8 of 8 4 D C B A D C B 1 GND_RF 5 & S) GND 5 IRQ /SEL MOSI DVSS MISO SCLK DVSS GND 75;B',* 75;B,54 6/3B75 75;BQ567 CLKM GND 8 4Q1 0+] 2 24 23 22 21 20 19 18 17 GND X) & VCC_3V3 S) S) 3ODFH[WDOFLUFXLWFORVHU WR75;,VRODWHIURP GLJLWDOVLJQDOV IRQ nSEL MOSI MISO & S) ) SCLK GND & CLKM 3ODFHGHFRXSOLQJFORVHU WR75; 75;B,) 75;B0,62 16 TRX_I/F 75;B026, 75;B6&. 75;BQ6(/ &/.0 2 15 DVSS 2 GND_RF 14 X) & $75)%=8 DVDD AVSS X) X) & & AN_VCC_3V3 27 XTAL2 25 13 DVDD EVDD 28 DEVDD 12 DVSS AVDD 29 DIG2 IRQ SLP_TR DIG3 DIG4 AVSS RFP RFN AVSS DVSS /RST RESET_N MISO MOSI SCLK nSEL CLKM 10 A 1 3 1 30 XTAL1 26 11 SLP_TR AVSS 9 DIG2 AVSS 31 DIG1 AVSS GND_RF GND_RF 32 PAD 33 GND_RF GND DIG3 DIG4 RESET_N 3 3ODFHGHFRXSOLQJFORVHU WR75; 1 2 3 4 5 6 7 8 DIG1 DIG2 SLP_TR 3 L 3&%5XOH 5)B3 3&%5XOH L 5)B1 4 3 4 Bal Bal % 4 GND_RF GND_RF 1 )%$ 50Ohm 2 GND GND 5 GND 6 & S) 5 5 1 GND_RF / Q+ / /D\RXW 0DLQWDLQWZRJURXQGSODQHVDQG WZRSRZHUSODQHV GND_RF 2 GND_RF 06 RF_IN RF_OUT - 3 GND GND 4 6 6 & S) GND_RF Q+ 1 7 Xmega_212B_RF.SchDoc TITLE: ATZB-X0-256-4-0-CN 4:02:24 PM 5 5 08-Jul-14 5 5 Document number: A08-1567 Date: Chennai MSK MSK MGR Road OJS RMZ Millenia 2 ATMEL India NC $7$ FEED POINT $ 7 2 Revision: 5 PAGE: 8 of 8 2 D C B A D C B A GPIO/ADC/DAC 1 7:, 2 3' 3' 3' 3' 3$ 3$ 3% 3% $5() 3$ 3$ 3$ 3$ 3$ 3$ 3( 3( 3( 3( *3,2$'&'$& *3,2$'& 63,,17(5)$&( 2 *3,2$'&$1$/2*&203 GPIO/ADC TWI SPI INTERFACE GPIO/ADC/ANALOGCOMP 1 3 86%'B1 3(B*3,2 3$ 3$B$'&B,17 17 18 3$ 3$ 3$ 3$ 3% 20 21 3)B2&%B,17B;&. 19 3% 3% 16 3',B'$7$ 3%B$5()B,17 3% 15 3'B;&. 3$ 14 3'B7;' 3$ 13 12 3'B5;' GND 11 10 9 8 7 6 5 4 3 2 1 3$B$'&B,17 3$B$'&B,17 3$ 3$B$'&B,17 86%'B3 3'B026,B;&. 3'B66 Q567 VCC_3V3 VCC_3V3 GND GND 3(B$6<1& 3(B6&/ 3(B6'$ 86%'B3 86%'B1 3'B026,B;&. 3'B66 3 4 $7=%;&1 = PF1/OC0B/INT/XCK0 PB2 PB3 PA7 PA6 PDI_DATA PD1/XCK0 PD3/TXD0 PD2/RXD0 GND PA4 PA5 PD7/SCK/TXD1/D+ PD6/MISO/RXD1/D- PD5/MOSI/XCK1 PD4/SS RSET/PDI_CLOCK VDD VDD GND GND 4 = (0,6KLHOG 1 2 3 4 PF0 GND GND 5 PF2/OC0C/INT/RXD0 PF3/OC0D/INT/TXD0 PB0/IAREF/INT PA0/ADC0/INT PA1/ADC1/INT PA2/ADC2/INT PA3/ADC3/INT GND PB6/TCK/INT PB4/TMS/INT PB7/TDO/INT PB5/TDI/INT PE3 PE2/ASYNC PE1/SCL PE0/SDA PE5/OC1B/INT PE4/SYNC/OC1A 5 3(B$6<1& 3(B*3,2 3%B7',B,17 3%B7'2B,17 3%B706B,17 3%B7&.B,17 35 34 33 32 31 30 3$B$'&B,17 3$B$'&B,17 3$B$'&B,17 3$B$'&B,17 3%B$5()B,17 3)B2&'B,17B7;' 3)B2&&B,17B5;' 28 27 26 25 24 23 22 GND 3(B6&/ 36 29 3(B2&%B,17 3(B6'$ 37 3(B6<1&B2&$ 39 38 3) GND GND 40 41 42 6 6 3( 3( 3', 3) 3) 3) 3) 3% 3% 3% 3% 3',*3,2 ,173:0*3,2 -7$* 8$5786$57 OJS Q567 3' 3' 3' 08-Jul-14 * 7 Xmega_212B_Connector.SchDoc TITLE: ATZB-X0-256-4-0-CN Document number: A08-1567 Date: NORWAY N-7075 TILLER Vestre Rosten 79 MSK ATMEL Norway 3(B2&%B,17 3(B6<1&B2&$ 3',B'$7$ 3) 3)B2&'B,17B7;' 3)B2&&B,17B5;' 3)B2&%B,17B;&. 3%B7'2B,17 3%B7&.B,17 3%B7',B,17 3%B706B,17 Q567 3'B7;' 3'B5;' 3'B;&. 7 4:02:24 PM 2 Revision: 5 PAGE: PDI/GPIO INT/PWM/GPIO JTAG UART/USART 8 of 8 4 D C B A D GND_RF / 1 %/0%%61 / GND VCC_3V3 %/0%%61 AN_VCC_3V3 GPIO/ADC/ANALOGCOMP VCC_3V3 *3,2$'&$1$/2*&203 GND GND 3ODFHGHFRXSOLQJFORVHU WR0&8 GND 2 GND 3ODFHX)FORVHUWR 9FFLQSXWIRUPRGXOH GND GND 3$ 3$ 3% 3% Q & C 3$ 3$ 3$ $5() *3,2$'&'$& *3,2$'& 3$ 3$ 3$ 3' 3' Q & GPIO/ADC/DAC GPIO/ADC 63,,17(5)$&( Q & B SPI INTERFACE 3' 3' Q & A 2 Q & 1 X)9 & GND & Q VCC_3V3 3$ 3$ 3% 3% 3%B$5()B,17 3$ 3$ 3$B$'&B,17 3$B$'&B,17 3$B$'&B,17 3$B$'&B,17 86%'B3 86%'B1 3'B026,B;&. 3'B66 3 GND VCC_3V3 3 3&B75;BQ567 3% 3% 3%B706B,17 3%B7',B,17 3%B7&.B,17 3%B7'2B,17 3$B$'&B,17 3$ 3$ 3$ 3$ 3%B$5()B,17 3&B75;B',* 3&B75;B,54 3&B75;B6/3B75 3&B75;BQ567 4 3&B75;B63,B0,62 3&B75;B63,B026, &/.0 75;B',* 75;B,54 6/3B75 75;BQ567 75;B0,62 75;B026, 75;B6&. 75;BQ6(/ $7[PHJD$80+ 3&B75;B63,B6&. CLKM GND VCC_3V3 PA3(ADCA3/ACA3) PA4(ADCA4/ACA4) PA5(ADCA5/ACA5) PA6(ADCA6/ACA6) PA7(ADCA7/ACA7) PB0(ADCB0/ACB0/AREFB) PB1(ADCB1/ACB1) PB2(ADCB2/ACB2/DACB0) PB3(ADCB3/ACB3/DACB1) PB4(ADCB4/ACB4/TMS) PB5(ADCB5/ACB5/TDI) PB6(ADCB6/ACB6/TCK) PB7(ADCB7/ACB7/TDO) GND VCC PC0(SDA/OC0A/OC0ALS) 3&B75;B63,B66 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 4 65 PAD_GND Q567 3',B'$7$ CLKM GND GND VCC_3V3 5 3)B2&'B,17B7;' 3$B$'&B,17 3$B$'&B,17 3$B$'&B,17 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 75;B,) 5 TRX_I/F VCC_3V3 GND 8 Q567 5 . L 3&%5XOH (OC0C/RXD0)PF2 (OC0B/XCK0)PF1 (OC0A)PF0 VCC GND PE7 PE6 (OC1B)PE5 (OC1A)PE4 (OC0D/TXD0)PE3 (OC0C/RXD0)PE2 (OC0B/XCK0/SCL)PE1 (OC0A/SDA)PE0 VCC GND (D+/TXD1/SCK)PD7 (ACA2/ADCA2)PA2 (ACA1/ADCA1)PA1 (AREFA/ACA0/ADCA0)PA0 AVCC GND (XTAL1)PR1 (XTAL2)PR0 PDI_CLK/RESET PDI_DATA PF7 PF6 VCC GND PF5 (OC0A)PF4 (OC0D/TXD0)PF3 17 3&B75;B',* 18 3&B75;B,54 3&B75;B6/3B75 19 20 3&B75;B63,B66 3&B75;B63,B026, 21 3&B75;B63,B0,62 22 3&B75;B63,B6&. 23 24 25 26 27 28 29 30 31 32 PC1(SCL/XCK0/OC0B/OC0AHS) PC2(RXD0/OC0C/OC0BLS) PC3(TXD0/OC0D/OC0BHS) PC4(SS/OC1A/OC0CLS) PC5(XCK1/MOSI/OC1B/OC0CHS) PC6(RXD1/MISO/OC0DLS) PC7(TXD1/SCK/OC0DHS) GND VCC PD0(OC0A) PD1(XCK0/OC0B) PD2(RXD0/OC0C) PD3(TXD0/OC0D) PD4(SS/OC1A) PD5(MOSI/XCK1/OC1B) PD6(MISO/RXD1/D-) 3'B;&. 3'B5;' 3'B7;' 3'B66 3'B026,B;&. 86%'B1 86%'B3 VCC_3V3 6 GND TOSC1 TOSC2 3(B2&%B,17 3(B6<1&B2&$ 3(B*3,2 3(B$6<1& 3(B6&/ 3(B6'$ VCC_3V3 GND 3)B2&&B,17B5;' 3)B2&%B,17B;&. 3) L 3&%5XOH 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 VCC_3V3 6 7 Xmega_212B_MCU.SchDoc 3',*3,2 4:02:24 PM ;& )&N+] TOSC1 TITLE: ATZB-X0-256-4-0-CN 8$5786$57 -7$* 7:, ,173:0*3,2 TOSC2 3( 3( 3', 3) 3) 3) 3) 3' 3' 3' 3% 3% 3% 3% 08-Jul-14 * MSK OJS 3( 3( 3( 3( Q567 Document number: A08-1567 Date: Chennai MGR Road RMZ Millenia ATMEL India 3ODFH[WDOFLUFXLWFORVHU WR0&8,VRODWHIURP GLJLWDOVLJQDOV 3(B2&%B,17 3(B6<1&B2&$ 3',B'$7$ 3) 3)B2&'B,17B7;' 3)B2&&B,17B5;' 3)B2&%B,17B;&. 3'B7;' 3'B5;' 3'B;&. 3%B7'2B,17 3%B7&.B,17 3%B7',B,17 3%B706B,17 Q567 3(B*3,2 3(B$6<1& 3(B6&/ 3(B6'$ 7 3 8 of S) S) Revision: 5 PAGE: & & 4 GND PDI/GPIO INT/PWM/GPIO UART/USART JTAG TWI 8 D C B A 4.1 Handling Instructions The ZigBit Modules are fixed with an EMI Shield to ensure compliance to Emission and Immunity rules. This shield is galvanic and NOT air tight. So cleaning of the module with IPA / other similar agents is not advised. Humidity protection coating (conformal) will cause deviated RF behavior and coating material being trapped inside EMI Shield. So this should be avoided. For products requiring conformal coating, it is advised to suitably mask the ZigBit before applying the coating to rest of the ZigBit carrier board. To protect ZigBit from humidity, the housing of the product should ensure suitable Ingress Protection standards are complied with. The MS-147 connector should never be exposed to Varnish / similar conformal coating material which will affect electrical connection on the surfaces of connector. The in-built chip antenna has been tuned for the particular design. 4.2 General Recommendations * * * Metal enclosure should not be used. Using low profile enclosure might also affect antenna tuning. * ZigBit module should not be placed next to consumer electronics which might interfere with ZigBit's RF frequency band Placing high profile components next to antenna should be avoided Having holes/vias punched around the periphery of the board eliminates parasitic radiation from the board edges also distorting antenna pattern ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 20 5. Persistence Memory A dedicated memory space is allocated to store product specific information and called the Persistence Memory. The organization of the persistence memory is as follows: Table 5-1. Persistence Memory Data Size Structure Revision MAC address 2 bytes (1) 8 bytes Board information overall 49 bytes Board information - PCBA Name 30 bytes Board information - PCBA Serial number 10 bytes Board information - PCBA Atmel Part Number 8 bytes Board information - PCBA Revision 1 byte Reserved 3 bytes XTAL Calibration Value 1 byte Reserved 7 bytes Reserved 4 bytes CRC 1 byte In ATZB-X0-256-4-0-CN, the persistence memory is stored in User Signature Row of ATxmega256A3U Microcontroller starting from address 0x0000. This section is not erased by chip erase and requires a dedicated erase command. The user signature row is a separate memory section that is fully accessible (read and write) from application software and external programmers. See section "Read User Signature Row / Production Signature Row" under section "NVM Flash Commands" in XMEGA AU manual [1] for details in reading the user signature data from application software. Note: 1. The MAC address stored inside the MCU is a uniquely assigned ID for each ZigBit and owned by Atmel. User of the ZigBit application can use this unique MAC ID to address the ZigBit in end-applications. The MAC ID can be read from the ZigBit using the Performance Analyzer Application that is supplied through Atmel Studio Gallery Extension. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 21 6. Ordering Information Table 6-1. Ordering Information Part Number Description ATZB-X0-256-4-0-CN 900 MHz IEEE802.15.4/ZigBee OEM module based on ATXMEGA256A3U MCU and AT86RF212B Transceiver with MS-147 test connector and chip antenna, Single unit ATZB-X0-256-4-0-CNR 900 MHz IEEE802.15.4/ZigBee OEM module based on ATXMEGA256A3U MCU and AT86RF212B Transceiver with MS-147 test connector and chip antenna, Tape & Reel Note: Tape & Reel quantity: 200. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 22 7. Agency Certifications 7.1 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 ATZB-X0-256-4-0-CN modular transmitter must be labeled with its own FCC ID number, and, if the FCC ID is not visible 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: IMPORTANT: Contains FCC ID: VW4A091745. 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 antenna used for this mobile transmitter must provide a separation distance of at least 20cm from all persons and must not be collocated 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 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). 7.2 Industry Canada (IC) Compliance Statements This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le present appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisee aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioelectrique subi, meme si le brouillage est susceptible d'en compromettre le fonctionnement. ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 23 This equipment complies with radio frequency exposure limits set forth by Industry Canada for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the device and the user or bystanders. Cet equipement est conforme aux limites d'exposition aux radiofrequences definies par Industrie Canada pour un environnement non controle. Cet equipement doit etre installe et utilise avec un minimum de 20cm de distance entre le dispositif et l'utilisateur ou des tiers. CAUTION: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. The OEM integrator is still responsible for testing their end-product for any additional compliance requirements required with this module installed (for example, digital device emissions, PC peripheral requirements, etc.). This Module is labelled with its own IC ID. If the IC ID Certification Number is not visible while installed inside another device, then the device should display the label on it referring the enclosed module. In that case, the final end product must be labelled in a visible area with the following: "Contains Transmitter Module IC: 11019A-091745" OR "Contains IC: 11019A-091745" Ce module est etiquete avec son propre ID IC. Si le numero de certification IC ID n'est pas visible lorsqu'il est installe a l'interieur d'un autre appareil, l'appareil doit afficher l'etiquette sur le module de reference ci-joint. Dans ce cas, le produit final doit etre etiquete dans un endroit visible par le texte suivant: "Contains Transmitter Module IC: 11019A-091745" OR "Contains IC: 11019A-091745" ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 24 8. Revision History Doc. Rev. Date Comments 42268C 02/2015 Former Section 7.2 "European Union (ETSI)" has been removed 42268B 07/2014 Updated schematics pages 16 to 19 42268A 04/2014 Initial document release ATZB-X0-256-4-0-CN [ZigBit 900MHz Wireless Modules] 42268C-WIRELESS-02/2015 25 Atmel Corporation Atmel Asia Limited Atmel Munich GmbH Atmel Japan G.K. 1600 Technology Drive Unit 01-5 & 16, 19F Business Campus 16F Shin-Osaki Kangyo Building San Jose, CA 95110 BEA Tower, Millennium City 5 Parkring 4 1-6-4 Osaki, Shinagawa-ku USA 418 Kwun Tong Road D-85748 Garching b. Munich Tokyo 141-0032 Tel: (+1)(408) 441-0311 Kwun Tong, Kowloon GERMANY JAPAN Fax: (+1)(408) 487-2600 HONG KONG Tel: (+49) 89-31970-0 Tel: (+81)(3) 6417-0300 www.atmel.com Tel: (+852) 2245-6100 Fax: (+49) 89-3194621 Fax: (+81)(3) 6417-0370 Fax: (+852) 2722-1369 (c) 2015 Atmel Corporation. All rights reserved. / Rev.: 42268C-WIRELESS-02/2015 Atmel(R), Atmel logo and combinations thereof, AVR(R), BitCloud(R), Enabling Unlimited Possibilities(R), ZigBit(R), XMEGA(R), and others are registered trademarks or trademarks of Atmel Corporation or its subsidiaries. Other terms and product names may be trademarks of others. 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. 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