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| data sheet rev. 1 . 0 0 / april 201 3 zwir4512 secure low - power wireless ipv6 module interface ics persistent and structured
zwir4512 secure low - power wireless ipv6 module ? 201 3 zentrum mikroelektronik dresden ag rev. 1.00 april 1 5 , 2013. all rights reserved. the material c o ntained herein may not be reproduced, adapt ed, merged, translated, stored, or used without the prior written consent of the copyright owner. the information furnished in this publication i s s ubject to changes without notice. for more information, contact zmdi via wpan@zmdi.com . brief description the zwir4512 enables secure low - power wireless ipv6 communication for sensors and small devices. zmdi provides a user - programmable, royalty - free 6lowpan stack with mesh routing capability with the zwir4512. 6lowpan is an internet engineering task force (ie tf) standard for building wireless, low - power ip - based sensor and device networks. these networks can easily be integrated into existing it infrastructure or operate autonomously. secure communication is provided by standard - compliant implementations of the internet protocol security (ipsec) protocol suite and the internet key exchange protocol version 2 (ikev2), which enable highly secure end - to - end communication, including over unsecure network nodes. the module is powered by an arm ? cortex? - m3 microcon troller * and provides a rich set of gpio and peripheral interfaces. up to 192 kb of flash and 32 kb of ram are available for user application s . different low power modes are provided to save energy in battery - operated devices. the modules provide superior radio properties without the need for complicated external rf design. hardware features ? license - free 868/915 mhz frequency bands ? arm ? cortex ? - m3 32 - b it m icrocontroller ? u p to 192 kb f lash and up to 32 kb ram fo r user application s ? unique eui64 a ddress ? 4 (10) chann els in eu (us) mode ? 19 (zwir4512ac1) or 21 (zwir4512ac2) gpio s with multiplexed peripheral functions: ? 2 x uart, spi, 3 x adc, 2 x dac, 11 x pwm, usb, can , i 2 c ? ? , 8 x timer ? sever al 5 v tolerant i/os available ? low current consumption: ? 3 .5 a standby m ode ? 13.5 ma receive m ode ? 18.5 ma transmit m ode @ 0 dbm ? modulation s chemes ? bpsk (20 kbps eu, 40 kbps us) ? o - qpsk (100 kbps eu, 250 kbps us) ? receiver s ensitivity: up to - 110 dbm ? tx output power: up to 10 dbm (us mode) * arm ? and cortex? are trademarks of arm, ltd. ? 2 c? is a trademark of nxp. firmware features ? serial c ommand interface with built - in security and over - the - air update (otau) functionality ? royalty - free l ibrary b undle for custom firmware ? 6lowpan communication library with mesh routing capability ? ipsec and ikev2 security librar ies ? over - the - air update library ? several peripheral libraries benefits ? uniquely simple programmability ? standard - compliant security solution ? no need for external microcontroller ? plug - and - p lay integration int o l ocal and wide - are a networks ? no rf design required ? 2d barcode label containing ma c address ? superior radio propagation ? etsi/ fcc certified available support ? development kit ? programming g uide and a pplication n otes ? ethernet, usb and uart gateways ? example p rograms demonstrating c - api usage physical characteristics ? supply voltage: 2.0 v to 3.6 v ? operatin g temperature: - 40 c to + 85 c ? 30 - pin edge - board contact package or 32 - pin land gri d array package typical zwir4512 application setu p w i r e l e s s - m e s h n e t w o r k s e n s o r l a n d e v i c e d s l r o u t e r i n t e r n e t e t h e r n e t g a t e w a y s e n s o r s e n s o r e t h e r n e t s e n s o r m o n i t o r l a n d e v i c e s e n s o r m o n i t o r i n t e r n e t d e v i c e s e n s o r m o n i t o r z w i r 4 5 1 2 z w i r 4 5 1 2 z w i r 4 5 1 2 z w i r 4 5 1 2 s e n s o r z w i r 4 5 1 2 l a n w a n zwir4512 secure low - power wireless ipv6 module ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 april 1 5 , 2013 all rights reserved. the material c o ntained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the c opyright owner. the information furnished in this publication is s ubject to changes without notice. stack architecture ordering information product sales code description package zwir4512 a c1x a unprogrammed module for user application programs 30 pin smt , 2 7.9 mm x 1 6.5 mm zwir4512 a c1xi preprogrammed module with serial command interface 30 pin smt , 2 7.9 mm x 1 6.5 mm ZWIR4512AC2XA unprogrammed module for user application programs 32 pin lga , 23 .1 mm x 15 .1 mm zwir4512ac2xi preprogrammed module with serial command interface 32 pin lga , 23 .1 mm x 15 .1 mm zwir4512 - devkit development k it sales and further information www.zmdi.com wpan@zmdi.com zentrum mikroelektronik dresden ag global headquarters grenzstrasse 28 01109 dresden, germany central office: phone +49.351.8822.0 fax +49.351.8822.600 zmd america, inc. 1525 mccarthy blvd., #212 milpitas, ca 95035 - 7453 usa usa phone +855.275.9634 zentrum mikroelektronik dresden ag, japan office 2nd floor, shinbashi tokyu bldg. 4 - 21 - 3, shinbashi, minato - ku tokyo, 105 - 0004 japan zmd far east, ltd. 3f, no. 51, sec. 2, keelung road 11052 taipei taiwan zentrum mikroelektronik dresden ag, korea office u - space 1 building 11th floor, unit ja - 1102 670 sampyeong - dong bundang - gu, seongnam - si gyeonggi - do, 463 - 400 korea phone +82.31.950.7679 fax +82.504.841.3026 phone +408.883.6310 fax +408.883.6358 phone +81.3.6895.7410 fax +81.3.6895.7301 phone +886.2.2377.8189 fax +886.2.2377.8199 european technical support phone +49.351.8822.7.772 fax +49.351.8822.87.772 disclaimer : this information applies to a product under development. its characteristics and specifications are subject to change without notice. zentrum mikroelek tronik dresden ag (zmd ag) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. the information furnished hereby is believed to be true and accu rate. however, under no circumstances shall zmd ag be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature what soever arising out of or in any way related to the fu rnishing, performance, or use of this technical data. zmd ag hereby expressly disclaims any liability of zmd ag to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liab ility of zmd ag for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise. european sales (stuttgart) phone +49.711.674517.55 fax +49.711.674517.87955 applications the zwir4512 serves a s a u niversal secure radio communication module. typical appli - cation exam ples include home and industry automation, health monitoring, smart metering / smart grid applications, and keyless entry systems. its very low current consumption makes the module suitable for battery - operated devices. zwir4512 block diagram d a c r f C t r a n s c e i v e r t h i n m a c d i g i t a l p h y a n a l o g f r o n t e n d m i c r o c o n t r o l l e r a d c a d c a d c a r m ? c o r t e x ? - m 3 a d c d a c a d c u a r t s p i u s b c a n a d c a d c p w m a d c a d c t i m i 2 c ? r f r f - c t r l s u p p l y r e s e t g e n e r a l p u r p o s e & p e r i p h e r a l i o b o o t g p i o & p e r i p h e r a l s m e s h r o u t i n g 6 l o w p a n i p s e c i p v 6 i k e v 2 i p s e c c o n f i g . & k e y d a t a b a s e u d p a p p l i c a t i o n u a r t 1 h a l i e e e 8 0 2 . 1 5 . 4 p h y n e t w o r k b u f f e r s u a r t 2 a r m ? c o r t e x ? - m 3 z w i r 4 5 0 2 h a r d w a r e o t a u p d a t e i c m p v 6 i e e e 8 0 2 . 1 5 . 4 m a c i e e e 8 0 2 . 1 5 . 4 m a c l i b z w i r 4 5 1 x - o t a u . a l i b z w i r 4 5 1 x - u a r t 2 . a a p p l i c a t i o n c o d e l i b z w i r 4 5 1 x - u a r t 1 . a l i b z w i r 4 5 1 2 . a l i b z w i r 4 5 x x - i k e v 2 . a l i b z w i r 4 5 x x - i p s e c . a l i b z w i r 4 5 x x - 6 l o w p a n . a zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 4 of 25 c ontents 1 module characteristics ................................ ................................ ................................ ................................ ........ 6 1.1. absolute maximum ratings ................................ ................................ ................................ .......................... 6 1.1.1. voltage characteristics ................................ ................................ ................................ .......................... 6 1.1.2. current characteristics ................................ ................................ ................................ .......................... 6 1.1.3. thermal characteristics ................................ ................................ ................................ ......................... 6 1.2. operating conditions ................................ ................................ ................................ ................................ .... 6 1.2.1. general operating conditions ................................ ................................ ................................ ............... 6 1.2.2. current consumption per operating mode ................................ ................................ ............................ 8 2 module description ................................ ................................ ................................ ................................ .............. 8 2.1. radio transceiver ................................ ................................ ................................ ................................ ......... 8 2.2. m icrocontroller ................................ ................................ ................................ ................................ .............. 9 2.2.1. mcu core ................................ ................................ ................................ ................................ .............. 9 2.2.2. peripherals and interfaces ................................ ................................ ................................ ..................... 9 2.2.3. programming and debugging ................................ ................................ ................................ ................ 9 2.3. firmware ................................ ................................ ................................ ................................ ....................... 9 2.3.1. serial command interface (sci) firmware ................................ ................................ ............................ 9 2.3.2. c application programming interface (c - api) ................................ ................................ ....................... 9 2.4. power modes ................................ ................................ ................................ ................................ .............. 10 2.4.1. run mode ................................ ................................ ................................ ................................ ............. 10 2.4.2. sleep mode ................................ ................................ ................................ ................................ .......... 10 2.4.3. stop mode ................................ ................................ ................................ ................................ ............ 10 2.4.4. standby mode ................................ ................................ ................................ ................................ ...... 11 3 applic ation circuits ................................ ................................ ................................ ................................ ............ 11 3.1. power supply ................................ ................................ ................................ ................................ .............. 11 3.2. reset and boot select ................................ ................................ ................................ ................................ 12 3. 3. debug access ................................ ................................ ................................ ................................ ............. 12 3.4. antenna ................................ ................................ ................................ ................................ ....................... 13 4 pinout ................................ ................................ ................................ ................................ ................................ . 14 5 package dimensions and pcb footprints ................................ ................................ ................................ ........ 20 5.1. zwir4512ac1 ................................ ................................ ................................ ................................ ............ 20 5.2. zwir4512ac2 ................................ ................................ ................................ ................................ ............ 21 6 soldering information ................................ ................................ ................................ ................................ ........ 22 7 customization ................................ ................................ ................................ ................................ .................... 23 8 certification ................................ ................................ ................................ ................................ ........................ 23 8.1. european r&tte directive statements ................................ ................................ ................................ ..... 23 8.2. federal communication commission certification statements ................................ ................................ . 23 8.2.1. statements ................................ ................................ ................................ ................................ ........... 23 8.2.2. requirements ................................ ................................ ................................ ................................ ....... 23 8.3. supported antennas ................................ ................................ ................................ ................................ ... 24 9 ordering information ................................ ................................ ................................ ................................ .......... 24 10 rel ated documents ................................ ................................ ................................ ................................ ........... 24 11 glossary ................................ ................................ ................................ ................................ ............................ 25 12 document revision history ................................ ................................ ................................ ............................... 25 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 5 of 25 list of figures figure 3.1 power supply schemes ................................ ................................ ................................ ....................... 11 figure 3.2 external circuitry for /res et and bsel ................................ ................................ ............................. 12 figure 3.3 jtag / swd connection for programming and debugging ................................ ................................ 13 figure 4.1 zwir4512acx pinout ................................ ................................ ................................ .......................... 14 figure 5.1 zwir4512ac1 package drawing (top, side, and bottom view) ................................ .......................... 20 figure 5.2 zwir4512ac1 recommended pcb footprint (in mil limeters) ................................ ........................... 20 figure 5.3 zwir4512ac2 package drawing (top, side and bottom view) ................................ ........................... 21 figure 5.4 zwir4512ac2 recommended pcb footprint (in millimeters) ................................ ........................... 21 figure 6.1 recommended temperature profile for reflow soldering (according to j - std - 020d) ...................... 22 figure 8.1 fcc compliance statement to be printed on equipment incorporating zwir4512 devices ............. 24 list of tables table 2.1 power modes overview ................................ ................................ ................................ ....................... 10 table 3.1 external power supply components ................................ ................................ ................................ ... 12 table 4.1 zwir4512acx pin description ................................ ................................ ................................ ............ 15 table 4.2 zwir4512acx gpio remapping ................................ ................................ ................................ ....... 18 table 4.3 zwir4512acx gpio function overview ................................ ................................ ............................ 19 table 5.1 zwir4512ac1 physical dimensions and tole rances ................................ ................................ ........ 20 table 5.2 zwir4512ac2 physical dimensions and tolerances ................................ ................................ ........ 21 table 6.1 soldering profile parameters (according to j - std - 020d) ................................ ................................ ... 22 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 6 of 25 1 m odule c haracteristics 1.1. a bsolute m aximum r atings the absolute maximum ratings are stress ratings only. the device might not function or be operable above the operating conditions. stresses exceeding the absolute maximum ratings might also damage the device. in addition, extended exposure to stresses above the operating conditions might affect device reliability. zmdi does not recommend designing to the absolute maximum ratings . 1.1.1. vo ltage characteristics parameter symbol min max unit main s upply v oltage v cc - 0. 3 4 v backup s upply v oltage v bat - 0. 3 4 input voltage at 5v - tolerant gpio pin v gpio - 0.3 5.5 input voltage at any other gpio pin - 0.3 v cc +0.3 1.1.2. current characteristics parameter symbol max unit maximum t otal current consumption i v cc 1 75 ma driving strength of each gpiox pin i gpio 25 driving strength of rf - c ontrol pin s (pactln, pactlp, dig1) i rfctrl 8 1.1.3. thermal characteristics parameter symbol value unit storage temperature range t s tor - 4 0 to +1 25 c ambient temperature range t amb - 40 to + 85 1.2. operating conditions 1.2.1. general operating conditions note: see important notes at the end of the table. parameter symbol min typ max unit electrical characteristics main supply voltage C adc not used v cc 2 . 0 3 . 6 v main supply voltage C adc used v cc 2 . 4 3 . 6 backup supply voltage v b kup 1 . 8 3 . 6 digital i/o h igh level input voltage v ih v cc C 0.4 digital i/o low level input voltage v il 0 . 4 digital i/o high level output voltage v oh v cc C 0.4 digital i/o l ow level output voltage v ol 0 . 4 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 7 of 25 parameter symbol min typ max unit mcu clock characteristics mcu core clock frequency 1) f ahb 8 64 mhz mcu core clock frequency accuracy range ? f ahb - 2 2.5 % mcu peripheral bus 1 clock frequency 2) f apb1 4 mhz mcu peripheral bus 2 clock frequency 2) f apb2 8 rf parameters frequency r ange f rf 865 928 mhz output p ower 3) - 11 10 dbm output power tolerance - 3 +3 db receiver s ensitivity bpsk, eu mode - 110 dbm bpsk, us mode - 108 qpsk, eu mode - 101 qpsk, us mode - 101 gross data r ate bpsk, eu mode 20 kbit/s bpsk, us mode 40 qpsk, eu mode 100 qpsk, us mode 250 channel s pacing eu mode 1 mhz us mode 2 number of c hannels eu mode 4) 1 (+3) us mode 10 input/output i mpedance 50 frequency o ffset - 10 +10 khz 1) the f core clock can be configured to be 8, 16, 32 , or 64 mhz. after r eset , the clock is set to 8 mhz. 2) f apb1 and f apb2 are derived from f ahb . therefore, the same tolerances apply to these clocks. 3) 10 dbm output power is only available in us mode; eu mode provides 5 dbm maximum output power. 4) the ieee802.15.4 standard defines only 1 channel for eu mode, b ut extension channels are available in almost all eu countries. zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 8 of 25 1.2.2. current consumption per operating mode operating mode condition typ 1) unit run mode receiver active 13.5 ma transmitter active , bpsk, 4dbm 23.5 transmitter active , qpsk, 4dbm 22.9 transmitter active , bpsk, 0dbm 19.1 t ransmitter active , qpsk, 0dbm 18.5 trx off 4.4 sleep mode trx off, rtc running 4.2 stop mode trx off, rtc running 23.5 a standby mode trx off, rtc running 3.7 1) current consumption values refer to devices operating at 25c with an application that does not generate a workload on the mcu . 2 module description the zwir4512 is a programmable wireless ipv6 communication module. communication is based on 6lowpan, a free and open communication standard developed by the internet engineering task force (ietf). this standard specifies ho w to transmit ipv6 (internet proto col version 6) packets over low - power wireless personal area networks. zwir4512 modules are available with a preprogrammed co mmand interface, allowing modem - like communication based on simple commands sent over a serial in terface. alternatively, the module is freely programmable on the basis of an application programming interface ( api ) that exposes abstract communication functionality to the programmer. b oth software options offer secure communication on the basis of the ip security (ipsec) protocol suite. additionally, an implementation of the internet key exchange protocol version 2 (ikev2) is provided, in order to make key management as easy as possible. ipsec and ikev2 are the mandated standards for securing ipv6 networks. r efer to zwir45 xx application note using ipsec and ikev2 in 6lowpans for more detailed information about ipsec and ikev2. the module comprises an stm32f103rc arm ? cort ex? - m3 microcontroller from st microelectr onics and a zwir4502 transceiver from zmdi. these components ensure leading - edge performance values at very low power consumption. the module provides a hardware - programmed 64 - bit mac address that is guaranteed to be globally unique. 2.1. radio transceiver the module includes zmdis zwir4502 radio transceiver. this circuit performs modulation and demodulation of outgoing and incoming data, respectively. the mo dulation scheme is configurable according to the ieee802.15.4 standard. the radio transceiver is never a ccessed directly by application code. this task is performed by the communication stack , whic h encapsulates such low - level functionality in abstract functions. zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 9 of 25 2.2. microcontroller the protocol stack and the user application are executed on an stm32f103 r c micro controller (mcu) from st microe lectronics. it provides 256 kb f lash and 48 kb sram memory. the mcu provides a rich set of peripherals and a number of general purpose input/output (gpio) ports. the gpio ports of the module are directly connected to the gpio s of the mcu. r efer to table 4 . 1 for an exact mapping. 2.2.1. mcu core the mcu core is an arm ? cortex ? - m3. this is a 32 - bit risc core with a performance of 1.25 dmips/mhz. using zmdi s software stack , the maximum operating frequenc y is 64 mhz. this allows for computational intensive applications. in order to save power , the core can be shut of f completely, waking up only on external activity. 2.2.2. peripherals and interfaces the module was designed to make maximum use of the controller s internal peripherals. up to 21 digital general purpose i/os can be used by the application. most of these i/os have alternative functions. some of them are 5v - tolerant. table 4 . 1 shows the most commonly used functions available for each interface. table 4 . 3 shows all functionalities on a single page, indicating which peripherals m ust not be used in parallel as their gp i os are interfering. in addition to communication interfaces, the module also provides signal conversion peripherals. three analog - to - digital converters (adcs), two digital - to - analog converters (dacs) and two pulse - width modulation (pwm) peripherals are available. 2.2.3. programming and debugging programming and debugging the module is ty pically done via jtag. all required mcu ports are connected to module pins for that purpose. alternatively, s erial w ire d ebug (swd) can be used for programming and debugging. this requires just two pins that have to be reserved, providing two additional gp io pins. alternatively, if debug functionality is not required, it is possible to program the module over a two - wire uart interface. for that purpose , the mcu s internal boot - loader must be started. this is done by holding the b sel pin of the module high w hile a reset is performed or the module is powered on. r efer to the mcu documentation for more information about serial programming. 2.3. firmware 2.3.1. serial command interface ( s ci) firmware a module programmed with the serial command interface firmware acts as a network processor . in this configuration, the module is controlled over a serial interface that is spi, usb, or one of the two uarts . the s ci firmware provides all standard communication functions for data transmission and reception , as well as all security functions and o ver - the - a ir u pdate (otau) functionality . access to internal peripherals is limited to digital control of the gpio pins . typically, an external microcontroller or a pc is required to control module operation. however, for simple sensing or acting applications , it is also possible to configure the module to run autonomously without the need for an external controller. r efer to the zwir45xx serial command interface manual for further information. 2.3.2. c application programmin g interface (c - api) a c - api is provided for applications that should run directly on the embedded microcontroller. communication and security functionalities are encapsulated in a set of l ibraries that export functions for accessing and controlling them. t he library architecture is modular, allowing tailoring applications to user needs. application s running on the microcontroller can make use of the rich set of peripherals that are provided by the controller. zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 10 of 25 depending on the library configuration, there ar e up to 192 kb of f lash and 32 kb of ram available for the user application. this is sufficient even for complex applications with high memory needs. if over - the - air update (otau) functional ity is required, the amount of f lash available for user applicatio ns is reduced to one half. for further information on c - api programming and otau , please refer to the zwir45 1 x programming guide and the zwir45xx over - the - a ir update manual . 2.4. power modes the zwir4512 module provides a set of operating modes with different capabilities and power requirements. this document only highlights the main features of these operating modes. table 2 . 1 gives an overview of the characteristics of the available power modes. see section 1.2.2 for a table of typi cal current consumption in the different modes. r efer to the zwir451 x programming guide for detailed usage instructions for the low - power modes . table 2 . 1 power modes overview mode wakeup clock context 1) i/o transceiver source time mcu core peripherals run on on 2) retained as configured on 3) sleep any irq 1.8 s off off 4) retained as configured off 4) stop rtc irq external irq 5.4 s off off retained as configured off 4) standby rtc irq wakeup p in 50 s off off lost analog i nput off 1) refers to the status of the ram and peripheral register contents after wakeup C the backup registers of the mcu are always available. 2) clock is enabled for all peripherals that have been enabled by application code and all peripherals that are used by the library. 3) can be powered off by application code. 4) remains if peripheral/transceiver is selected as wakeup source. 2.4.1. run mode in r un m ode , all functions of the module are available. the microcontroller and all its peripherals are powered. typically the transceiver is also powered, but it can be disabled by software. the module enters run mode automatically afte r startup. the application soft ware must switch to one of the other operating modes if required. 2.4.2. sleep mode in s leep m ode, the microcontroller core is not clocked . the power state of the transceiver and the microcontroller peripherals depends on the wakeup configuration . all peripherals that are selected as a wakeup source continue to operate . after wakeup , t he application program continues execution at the position it was stopped. sleep mode allows reacting to external events such as the reception of data, external interrupts , or timer events. the power consumption in this mode strongly depends on which peripherals are enabled. the i/o configuration is not changed during sleep mode . 2.4.3. stop mode stop m ode is an ultra - low - power mode with ram retention. the mcu core and the mcu peri pherals are not clocked. only the internal real - time clock or any external pin can be used for triggering wakeup from stop mode . after wakeup, the program continues execution at the position it was stopped. i n stop mode , all i/os remain in the configuratio n that was active when entering stop mode . zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 11 of 25 2.4.4. standby mode standby m ode is the lowest power mode. the transceiver and all microcontroller peripherals are consequently powered off. ram contents are lost. waking up from standby m ode can be triggered by a real - t ime - timer event or by one dedicated pin. when going to s tandby m ode, all i/os are put into analog input mode , so the application circuit must ensure that external components receive defined signal levels if required. when the module exits standby mode , it is restarted from the reset handler in the same sequence as the restart after power - on or after the reset button has been pressed . 3 application circuit s zwir4512 modules are designed to require minimal external circuitry. the following sections illustrate how modules must be connected in order to ensure proper power supply, reset behavior, programmability , and radio performance. instructions for the connection of gpio pins are not given. 3.1. power supply all internal components of the zwir4512 that require a stable power supply are internally decoupled with a number of capacitors. nevertheless, the module requires one external decoupling capacitor between vcc and gnd. this is the minimal external circuitry required for proper op eration. the module provides two different power supply pins: vcc and vstdby. v cc is the normal supply voltage that must be applied in r un, s leep , or stop mode . during s tandby m ode, the module is powered by v stdby and v cc can be switched off . figure 3 . 1 shows two possible power supply schemes. scheme a) connects vstdby to the same voltage source as vcc. this is the commonly used configurati on. however, scheme b) allows switching off v cc in standby mode . this can help reduc e power dissipation in applications with ultra - low power requirements. during the complete standby phase , vstdby is powered from a buffering capacitor. figure 3 . 1 power supply schemes a) without separate standby supply b) with capacitor based standby supply v v s t d b y v c c g n d c 1 v v c c g n d v s t d b y c 1 d 1 r 1 c 2 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 12 of 25 table 3 . 1 external power supply components symbol function value/comment c 1 decoupling c apacitor m andatory, 10 f r 1 charge c urrent limitation 6.8 k ? d 1 buffering capacitor discharge protection schottky diode ; e.g. , bat54 - 02v c 2 buffering c apacitor ? 0.1 f 3.2. reset and b oot select the /reset pin is de - bounced and has a pull - up resistor on the pcb. thus, a push - button can be connected directly to gnd or the pin can be left unconnected if it is not required. the boot select pin (bsel) is pulled down internally. i f b sel is not required, it can be left uncon nected. figure 3 . 2 shows how th e se pins are connected externally and illustrates the internal circuitry. figure 3 . 2 external circuitry for /reset and bsel 3.3. debug access the zwir4512 provides debug access by means of a jtag or swd interface. figure 3 . 3 shows an example of connecting the module with a 20 - pin standard arm ? jtag header. if no jtag connection is required, the dotted connections can be left out and two additional pins are availa ble as gpios. g n d / r e s e t v c c g n d b s e l v c c zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 13 of 25 figure 3 . 3 jtag / swd connection for programming and debugging 3.4. antenna there are two options to connect an external antenna. the antenna can be connected to the mo dule using a coaxial cable that is mounted on the u.fl connector, or an external antenna terminal on the host pcb can be connected to the ant pin . if the on - board u.fl connector is used, the ant pin must be left unconnected. an external antenna must be connected with a 50 microstrip wire. t m s t d i v c c t c k t d o / r e s e t g n d 1 3 5 7 9 1 1 1 3 1 5 1 7 1 9 2 4 6 8 1 0 1 2 1 4 1 6 1 8 2 0 2 0 p i n a r m j t a g h e a d e r zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 14 of 25 4 pinout each of the zwir4512 gpio pins may have different functionalities, controllable by software. the most commonly used functions available on each pin are listed in table 4 . 1 . furthermore, the gpio peripheral functions are shown as a n overview in table 4 . 3 . the full list of available functions of each pin can be obtained from the stm32f103xc data sheet. some peripheral i/o functions are available through different pins. the default gpio pin for each peripheral function is marked wi th an ? in table 4 . 3 . when it is possible to remap a peripheral function to another module pin , this is marked with a letter. the corresponding remapping function is described in table 4 . 2 . figure 4 . 1 zwir4512acx pinout zwir4512ac1 zwir4512ac2 1 2 3 4 5 6 7 8 9 2 4 2 3 2 2 2 1 2 0 1 9 1 8 1 7 1 6 1 0 1 1 1 2 1 3 1 4 1 5 3 0 2 9 2 8 2 7 2 6 2 5 1 2 3 4 5 6 7 8 9 1 0 2 6 2 5 2 4 2 3 2 2 2 1 2 0 1 9 1 8 1 7 1 1 1 2 1 3 1 4 1 5 1 6 3 2 3 1 3 0 2 9 2 8 2 7 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 15 of 25 table 4 . 1 zwir4512acx pin description pins name mcu port type 1) 5v api function 2) , 3) sci function 3) , 4) zwir4512ac1 zwir4512ac2 1 1 gpio7 pa7 io gpio spi1 C mosi adc1 / adc2 C channel 7 pwm spi C mosi 2 2 gpio6 pa6 io gpio spi1 C miso adc1 / adc2 C channel 6 pwm spi C miso 3 3 gpio5 pa5 io gpio spi1 C sck dac C out2 adc1 / adc2 C channel 5 spi C sck 4 4 gpio4 pa4 io gpio spi1 C nss usart2 C ck dac C out1 adc1 / adc2 C channel 4 spi C nss gpio 5 5 gpio3 pa3 io gpio usart2 C rx adc1 / adc2 / adc3 C channel 3 pwm uart2 C rx gpio 6 6 gpio2 pa2 io gpio usart2 C tx adc1 / adc2 / adc3 C channel 2 pwm uart2 C tx 7 7 gpio1 pa1 io gpio usart2 C rts adc1 / adc2 / adc3 C channel 1 pwm gpio uart2 - rts 8 8 gpio0 pa0 - wkup io gpio wkup usart2 C cts adc1 / adc2 / adc3 C channel 0 pwm gpio uart2 cts 9 9 gpio12 pc13 io gpio tamper - rtc gpio zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 16 of 25 pins name mcu port type 1) 5v api function 2) , 3) sci function 3) , 4) zwir4512ac1 zwir4512ac2 18 10 vstdby vbat s alternative standby mode power supply 10 11 /reset nrst i ? reset 11 12 gnd gnd s ground 12 13 gpio9 pa10 io ? gpio usart1 C rx pwm uart1 C rx gpio 13 14 gpio8 pa9 io ? gpio usart1 C tx pwm uart1 C tx gpio 14 15 vcc vcc s power s upply 15 16 bsel boot0 i boot mode selection n/a 17 gpio15 pc14 io gpio osc32 C in gpio n/a 18 gpio16 pc15 io gpio osc32 C out gpio 16 19 gpio10 pa11 io ? gpio usart1 C cts usb C d - can C rx pwm gpio uart1 C cts 17 20 gpio11 pa12 io ? gpio usart1 C rts usb C d+ can C tx timer trigger (tim1) gpio uart1 C rts 19 21 tdo pb3 io ? jtag C tdo gpio pwm 20 22 tms pa13 io ? jtag C tms , swdio gpio gpio 21 23 tdi pa15 io ? jtag C tdi gpio gpio 22 24 tck pa14 io ? jtag C tck , swclk gpio gpio zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 17 of 25 pins name mcu port type 1) 5v api function 2) , 3) sci function 3) , 4) zwir4512ac1 zwir4512ac2 23 25 gpio14 pb7 io ? gpio i 2 c ? C sda uart1 C rx pwm gpio 24 26 gpio13 pb6 io ? gpio i 2 c ? - scl uart1 C tx pwm gpio 25 27 dig1 - o unused, leave unconnected 26 28 pactln - o pa control (differential) complementary output, leave unconnected if unused 27 29 pactlp - o pa control (differential), leave unconnected if unused 28 30 gnd gnd s ground 29 31 ant - io antenna pin 30 32 gnd gnd s ground 1) the type column indicates the type of the pin: io = input/output, i = input only, o = output only, s = power supply. 2) the listed functionalities include only the most important functionalities C please refer to the stm32f103xc data sheet for a full list. 3) functions listed in italic letters are selected by default if the devic e is not reprogrammed. gpios are analog inputs by default. 4) any pin marked as gpio can be configured as indicator for incoming or outgoing packets on network or serial interfaces. zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 18 of 25 table 4 . 2 zwir4512acx gpio remapping name peripheral pin change requ i red action a uart1 rx pa9 ? pb6 write 1 bin to afio_mapr[2] (see sections 8.3 and 8.4.2 of the stm32f103xx reference manual. ) i tx pa10 ? pb7 rts pa12 ? ? cts pa11 ? ? b timer 1 ch1n ? ? p a7 write 01 bin to afio_mapr[11:10] c timer 2 ch1 pa1 ? pb3 write 01 bin to afio_mapr[9:8] ch2 pa0 ? pa15 d jtag tdi pa15 ? ? write 0 1 0 bin to afio_mapr[26:24] tdo pb3 ? ? e jtag tms pa13 ? ? write 100 bin to afio_mapr[26:24] tck pa14 ? ? tdi pa15 ? ? tdo pb3 ? ? zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 19 of 25 table 4 . 3 zwir4512acx gpio function overview zwir4512ac2 - pin 1 2 3 4 5 6 7 8 9 13 14 17 18 19 20 21 22 23 24 25 26 zwir4512ac1 - pin 1 2 3 4 5 6 7 8 9 12 13 - - 16 17 19 20 21 22 23 24 mcu - gpio port a7 a6 a5 a4 a3 a2 a1 a0 c13 a10 a9 c14 c15 a11 a12 b3 1) a13 2) a15 1) a14 2) b7 b6 uart1 rx ? a tx ? a rts ? ,a cts ? ,a usart2 rx ? tx ? rts ? cts ? ck ? spi1 mosi ? miso ? sck ? nss ? i 2 c ? sda ? scl ? usb d+ ? d - ? can tx ? rx ? standby wakeup ? pwm t1 - ch1n b t1 - ch2 ? ,b t1 - ch3 ? ,b t1 - ch4 ? ,b t2 - ch1 ? c 1) t2 - ch2 ? c 1) t2 - ch3 ? ,c t2 - ch4 ? ,c t3 - ch1 ? t3 - ch2 ? t4 - ch1 ? t4 - ch2 ? t5 - ch1 ? t5 - ch2 ? t5 - ch3 ? t5 - ch4 ? adc ch0 ? ch1 ? ch2 ? ch3 ? ch4 ? ch5 ? ch6 ? ch7 ? dac dac1 ? dac2 ? jtag tms ? 3) tck ? 3) tdi ? 3) tdo ? 3) swd swdio ? , d 4) swdclk ? , d 4) 1) gpio or peripheral functionality of this port is only available with remap function d or e active . 2) gpio functionality of this port is only available with remap function e active . 3) jtag functionality is only available when remap functions d and e are inactive . 4) swd functionality is only available when remap function e is inactive . zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 20 of 25 5 package di mensions and pcb footprints 5.1. zwir4512ac1 figure 5 . 1 zwir4512ac1 package drawing (top, side , and bottom view) table 5 . 1 zwir4512ac1 physical dimensions and tolerances symbol millimeters symbol millimeters min typ max min typ max a 3.5 3.5 5 3.6 n 1 d 27.74 27. 94 28.14 w 1.08 1.1 1.12 e 16.31 16 . 51 16.71 i 1 2.67 d 2.54 i 2 0.27 f 2.44 2.54 2.64 r 0.5 figure 5 . 2 zwir4512ac1 recommended pcb footprint (in millimeters) e d a f d d f w n i 1 i 2 r 1 6 . 5 1 2 7 . 9 4 1 8 . 9 1 3 0 . 3 4 2 . 5 4 1 . 2 2 . 5 4 2 . 5 4 2 . 5 4 2 . 4 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 21 of 25 5.2. zwir4512ac 2 figure 5 . 3 zwir4512ac2 package drawing (top, side and bottom view) table 5 . 2 zwir4512ac2 physical dimensions and tolerances symbol millimeters symbol millimeters min typ max min typ max a 3.5 3.5 5 3.6 b 0 0. 1 0.2 d 22.9 23.1 23.3 f1 x 1) 2.0 e 14.9 15.1 15.3 f1 y 1) 0.5 d 2 f2 x 1) 11.5 f 1. 7 5 f2 y 1) 9.0 n 1.2 f3 x 1) 3.5 w 0.9 f3 y 1) 17.5 1) fiducial positions are relative to center point of pad 1 rectangle , top view . figure 5 . 4 zwir4512ac 2 recommended pcb footprint (in millimeters) e d a f d f d w / 2 b b b b b f 1 f 3 f 2 n w n w b f 3 f 2 f 1 2 1 . 8 1 3 . 8 1 . 9 2 . 0 1 . 1 1 . 9 1 . 7 0 . 5 5 2 3 . 5 1 5 . 5 zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 22 of 25 6 soldering information to ensure that soldered connections do not break during the reflow soldering process of the application pcb, the soldering profile described in table 6 . 1 and figure 6 . 1 must be maintained. this profile is aligned with the profile defined in the ipc/jedec standard j - std - 020 d . table 6 . 1 soldering profile parameters (according to j - std - 020d) profile f eature symbol min max unit time 25c to t p t h 8 min peak package body temperature t p 260 c preheat / soak soak t emperature t s 100 150 c soak time t s 60 120 s ramp - up ramp - up rate t l to t p 3 c/s time maintained above t l t l 150 s time within 5c of t p t p 30 s ramp - down ramp - down rate t p to t l 6 c/s figure 6 . 1 recommended temperature profile for reflow soldering (according to j - std - 020d) t s m i n t s m a x t l t p t l t s t h t p - 5 c t i m e t e m p e r a t u r e t p zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 23 of 25 7 customization for larger order quantities , it is possible to deliver modules with preprogrammed customer firmware. depending on the quantity and user requirements, hardware customization to fit customer needs might be possible. please contact our support team for requests regarding module customization. 8 certification 8.1. european r&tte directive statements the zwir4512 module has been tested and found to comply with annex iv of t he r&tte directive 1999/5/ec and is subject of a notified body opinion. the module has been approved for antennas with gains of 4 dbi or less. 8.2. fede r al communication commission certification statements 8.2.1. statements this equipment has been tested and found to comply with the limits for a class b d igital d evice , pursuant to part 15 of the fcc rules. these limits are designed to provide reasonable protection against harmful interference in a residential installation. this equipment generates, uses , and can radiat e radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. however, there is no guarantee that interference will not occur in a particular installation. if this equip ment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: ? reorient or relocate the receiving antenna. ? increase the separation between the equipment and receiver. ? connect the equipment into an outlet on a circuit different from where the receiver is connected. ? consult the dealer or an experienced radio/tv technician for help. this device 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 op eration. modifications not expressly approved by zmd ag could void the user's authority to operate the equipment. the internal/ external antennas used for this mobile transmitter must provide a separation distance of at least 20cm from all persons and must not be co - located or operating in conjunction with any other antenna or transmitter. 8.2.2. requirements the zwir4512 complies with part 15 of the fcc rules and regulations. in order to retain compliance with the fcc certification requirements, the following conditions must be met: 1. modules must be installed by original equipment manufacturers (oem) only . 2. the module must only be operated with antennas adhering to the requireme nts defined in section 8.3 . 3. the oem must place a clearly visible text label on the outside of the end - produ ct containing the text shown in figure 8 . 1 , below. important: the compliance statement as shown in figure 8.1 must be used without modifications for both zwir4512 product version s as the fcc i d covers the zwir4512ac1 and the zwir4512ac2! zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 24 of 25 figure 8 . 1 fcc compliance statement to be p rinted on equipment i ncorporating zwir4512 devices contains fcc id: cor - zwir4512ac1 this device 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. 8.3. supported antennas the fcc compliance testing of the zwir4512 has been carried out using the mexe902rpsm antenna from pctel inc. this antenna has an omnidirectional radiation pattern at an antenna gain of 2 db i . in order to be allowed to use the module without re - c ertification, the product incorporating the zwir4512 module must either use the antenna mentioned above or must use an antenna with an omnidirectional radiation pattern and a gain being less than or equal t o 2 dbi. 9 ordering information product sales code description package zwir4512 ac1x a unprogrammed module for user application programs 30 pin smt, 2 7.9 mm x 1 6.5 mm zwir4512 ac1xi preprogrammed module with serial command interface 30 pin smt, 2 7.9 mm x 1 6.5 mm ZWIR4512AC2XA unprogrammed module for user application programs 32 pin lga, 23 .1 mm x 15 .1 mm zwir4512ac2xi preprogrammed module with serial command interface 32 pin lga, 23 .1 mm x 15 .1 mm zwir4512 - devkit development kit 10 related documents document file name zwir45xx command interface manual zwir45xx_ci_manual_revx.x.pdf zwir451x programming guide zwir451x_programming_guide_revx.x.pdf zwir45xx over the air update manual zwir45xx_ota_update_manual_revx.x.pdf zwir45xx application note C using ipsec and ikev2 in 6lowpans zwir45xx _app - note _using_ipsec_ikev2_revx.x.pdf stm32f103xc data sheet www.st.com stm32f103xx reference manual www.st.com visit zmdis website www.zmdi.com or contact your nearest sales office for the latest version of these documents. zwir4512 secure low - power wireless ipv6 module data sheet april 1 5 , 20 13 ? 201 3 zentrum mikro elektronik dresden ag rev. 1.00 all rights reserved. the material contained herein may not be reproduced, adapted, merged, translated, stored, or used withou t the prior written consent of the copyright owner. the information furnished in this publicatio n is subject to changes without notice. 25 of 25 11 glossary term description 6lowpan ipv6 over low power wireless personal area networks adc ana log - to - d igital c onverter api application programming interface ci command interface dac digital - to - a nalog c onverter gpio genera l purpose input/output ipv6 internet protocol version 6 jtag joint test access group mcu microcontroller (stm32f103rc) ota u over - the - air update pcb printed circuit board pwm pulse - width modulation swd serial wire debug trx transceiver (zwir4502) 12 document revision history revision date description 1.00 april 1 5 , 201 3 first release of document. sales and further information www.zmdi.com wpan@zmdi.com zentrum mikroelektronik dresden ag global headquarters grenzstrasse 28 01109 dresden, germany central office: phone +49.351.8822.0 fax +49.351.8822.600 zmd america, inc. 1525 mccarthy blvd., #212 milpitas, ca 95035 - 7453 usa usa phone +855.275.9634 zentrum mikroelektronik dresden ag, japan office 2nd floor, shinbashi tokyu bldg. 4 - 21 - 3, shinbashi, minato - ku tokyo, 105 - 0004 japan zmd far east, ltd. 3f, no. 51, sec. 2, keelung road 11052 taipei taiwan zentrum mikroelektronik dresden ag, korea office u - space 1 building 11th floor, unit ja - 1102 670 sampyeong - dong bundang - gu, seongnam - si gyeonggi - do, 463 - 400 korea phone +82.31.950.7679 fax +82.504.841.3026 phone +408.883.6310 fax +408.883.6358 phone +81.3.6895.7410 fax +81.3.6895.7301 phone +886.2.2377.8189 fax +886.2.2377.8199 european technical support phone +49.351.8822.7.772 fax +49.351.8822.87.772 disclaimer : this information applies to a product under development. its characteristics and specifications are subject to change without notice. zentrum mikroelek tronik dresden ag (zmd ag) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. the information furnished hereby is believed to be true and accurate . however, under no circumstances shall zmd ag be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature what soever arising out of or in any way related to the furnis hing, performance, or use of this technical data. zmd ag hereby expressly disclaims any liability of zmd ag to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liab ility of zmd ag for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise. european sales (stuttgart) phone +49.711.674517.55 fax +49.711.674517.87955 mouser electronics authorized distributor click to view pricing, inventory, delivery & lifecycle information: zmdi: ? 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